CN214168438U - Round rope ironing equipment - Google Patents

Abstract

The utility model relates to a round rope scalds pressure equipment. The round rope ironing and pressing equipment comprises a base, a first ironing and pressing piece and a second ironing and pressing piece. The first ironing and pressing piece is provided with a first arc-shaped through groove, and the second ironing and pressing piece is provided with a second arc-shaped through groove; first casting die and/or second are scalded and are pressed a swing joint in base, and first arc leads to groove and can mutually support with second arc and form the pressing passageway that scalds that is used for scalding the pressure circle rope, and first casting die and second are scalded and are pressed the piece and can mutually support in order to be used for adjusting the distance that first arc leads to the groove and second arc leads to between the groove. When the ironing pressing equipment is adopted to iron the round rope, the round rope is positioned in the ironing pressing channel, the round rope is not easy to deform in the ironing pressing process, the round shape of the round rope can be effectively kept, and the processing requirement of the round rope ironing pressing is met. In addition, after a certain section of the round rope is ironed, the position of the round rope in the ironing channel is adjusted, so that the continuous processing of the ironing of the round rope can be realized, and the processing efficiency is improved.

Description

Round rope ironing equipment

Technical Field

The utility model belongs to the technical field of the textile technology and specifically relates to a round rope scalds pressure equipment.

Background

During the weaving process, it is sometimes necessary to iron the textile to improve its properties. Along with the increasing abundance of textile products and the higher and higher requirements of consumers on textiles, the traditional ironing equipment is difficult to meet the ironing requirements of diversified textiles. For example, when the round rope needs to be ironed, the traditional ironing equipment is difficult to meet the processing requirement of the round rope ironing.

SUMMERY OF THE UTILITY MODEL

Therefore, the circular rope ironing and pressing equipment is needed to be provided, and the circular rope ironing and pressing equipment can be used for effectively ironing and pressing the circular rope, so that the performance of the circular rope is improved.

In order to solve the technical problem, the technical scheme of the utility model is that:

a round rope ironing and pressing device comprises a base, a first ironing and pressing piece and a second ironing and pressing piece;

the first ironing part is provided with a first arc-shaped through groove, and the second ironing part is provided with a second arc-shaped through groove; the first ironing part and/or the second ironing part are movably connected to the base, the first arc-shaped through groove and the second arc-shaped through groove can be matched with each other to form an ironing channel for ironing a round rope, and the first ironing part and the second ironing part can be matched with each other to adjust the distance between the first arc-shaped through groove and the second arc-shaped through groove.

In one of the embodiments, the first and second electrodes are,

the first arc-shaped through groove is an arc-shaped through groove, and the central angle of an arc of the radial section of the first arc-shaped through groove is 178-183 degrees; and/or the presence of a gas in the gas,

the second arc-shaped through groove is an arc-shaped through groove, and the central angle of an arc of the radial section of the second arc-shaped through groove is 178-183 degrees.

In one embodiment, the central angle of the circular arc of the radial cross section of the first arcuate through slot is equal to the central angle of the circular arc of the radial cross section of the second arcuate through slot.

In one embodiment, the radius of the radial section of the first arc-shaped through groove is 1 mm-4 mm; and/or the presence of a gas in the gas,

the radius of the radial section of the second arc-shaped through groove is 1-4 mm.

In one embodiment, the radius of the radial cross-section of the first arcuate channel and the radius of the radial cross-section of the second arcuate channel are equal.

In one embodiment, there are a plurality of the first arc-shaped through grooves, and a plurality of the second arc-shaped through grooves; the first arc-shaped through grooves and the second arc-shaped through grooves can be opposite to each other one by one to form a plurality of ironing channels.

In one embodiment, the round rope ironing device further comprises a driving mechanism; the second ironing and pressing piece is fixed on the base; the driving mechanism is connected with the first ironing part and used for driving the first ironing part to move so as to adjust the distance between the first arc-shaped through groove and the second arc-shaped through groove.

In one embodiment, the round rope ironing and pressing equipment further comprises a material guiding platform; the material guide platform extends outwards from two ends of the base and is used for guiding the round rope to feed and receive materials.

In one embodiment, the second ironing and pressing piece is fixed to the material guiding platform, and the first ironing and pressing piece and the second ironing and pressing piece are located on the same side of the material guiding platform.

In one embodiment, the round rope ironing and pressing equipment further comprises a feeding mechanism and/or a receiving mechanism; the feeding mechanism and the receiving mechanism are respectively positioned on two sides of the base and used for feeding and receiving the round ropes.

The utility model provides a round rope scalds presses equipment includes that base, first scald pressure spare and second scald pressure spare. The first ironing and pressing piece is provided with a first arc-shaped through groove, and the second ironing and pressing piece is provided with a second arc-shaped through groove; first casting die and/or second are scalded and are pressed a swing joint in base, and first arc leads to groove and can mutually support with second arc and form the pressing passageway that scalds that is used for scalding the pressure circle rope, and first casting die and second are scalded and are pressed the piece and can mutually support in order to be used for adjusting the distance that first arc leads to the groove and second arc leads to between the groove. When the round rope adopts above-mentioned boiling hot to press equipment to scald the pressure to the round rope, through adjusting the first position of scalding the casting die and scalding the casting die with the second, lead to the groove with the second arc with first arc and adjust suitable position, then place the round rope and lead to the groove with the second arc, continue to adjust the first position of scalding the casting die and scalding the casting die with the second, make first arc lead to the groove and the groove formation of second arc to scald and press the passageway, at this moment, the round rope is located scalds and presses the passageway. And then, the ironing parameters between the first ironing and pressing piece and the second ironing and pressing piece are set to a proper range, and then the round rope is ironed and pressed. When the ironing pressing equipment is adopted to iron the round rope, the round rope is positioned in the ironing pressing channel, the round rope is not easy to deform in the ironing pressing process, the round shape of the round rope can be effectively kept, and the processing requirement of the round rope ironing pressing is met. In addition, after a certain section of the round rope is ironed, the position of the round rope in the ironing channel is adjusted, so that the continuous processing of the ironing of the round rope can be realized, and the processing efficiency is improved.

The utility model provides a first arc leads to the groove and is convex logical groove, and the central angle of the circular arc that the radial cross section that first arc leads to the groove is 178 ~ 183, and/or the second arc leads to the groove and is convex logical groove, and the central angle of the circular arc that the radial cross section that the second arc leads to the groove is 178 ~ 183. The inventor discovers that when the central angle of the arc of the radial section of the first arc-shaped through groove and/or the second arc-shaped through groove is 178-183 degrees in the process of researching hot pressing of the round rope, the first arc-shaped through groove and the second arc-shaped through groove can be well matched with the round rope, and the stability of the round shape of the round rope in the hot pressing process is further improved. The angle is too big, and the round rope atress is uneven, and the too little round rope of angle is difficult to complete pressfitting, appears the problem of deformation easily at the edge of arc wall.

Drawings

Fig. 1 is a schematic structural view of a round rope ironing device according to an embodiment of the present invention;

FIG. 2 is a left side view of the first ironing member and the second ironing member cooperating structure of the circular rope ironing apparatus shown in FIG. 1;

FIG. 3 is a bottom view of a first ironing member of the corresponding round rope ironing apparatus of FIG. 1;

FIG. 4 is a top view of a second ironing member of the corresponding round cord ironing apparatus of FIG. 1;

fig. 5 is a schematic structural view of the circular rope embossing device corresponding to fig. 1.

The notation in the figure is:

100. a round rope ironing device; 101. a base; 102. a first ironing and pressing piece; 1021. a first arc-shaped through groove; 103. A second ironing and pressing piece; 1031. a second arc-shaped through groove; 104. a first ironing mount; 105. a second ironing mounting member; 106. a drive mechanism; 107. a material guiding platform; 200. a round rope; 300. a thermal sublimation transfer medium.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 4, an embodiment of the present invention provides a round rope ironing and pressing apparatus 100, where the round rope ironing and pressing apparatus 100 includes a base 101, a first ironing and pressing member 102, and a second ironing and pressing member 103. The first ironing and pressing piece 102 is provided with a first arc-shaped through groove 1021, and the second ironing and pressing piece 103 is provided with a second arc-shaped through groove 1031. First boiling hot casting and pressing piece 102 and/or second boiling hot casting and pressing piece 103 swing joint in base 101, first arc logical groove 1021 and second arc logical groove 1031 can cooperate each other and form the passageway that scalds that is used for scalding and pressing round rope 200, and first boiling hot casting and pressing piece 102 and second boiling hot casting and pressing piece 103 can cooperate each other in order to be used for adjusting the distance between first arc logical groove 1021 and the second arc logical groove 1031.

When adopting in this embodiment to scald and press equipment to scald and press circle rope 200, through adjusting the position of first boiling hot casting and pressing piece 102 and second boiling hot casting and pressing piece 103, lead to groove 1031 with second arc through groove 1021 with first arc and adjust suitable position, then place circle rope 200 in second arc leads to groove 1031, continue to adjust the position that first boiling hot casting and pressing piece 102 and second scald and pressing piece 103, make first arc lead to groove 1021 and second arc lead to groove 1031 and form and scald and press the passageway, at this moment, circle rope 200 is located scalds and presses the passageway. And then, the ironing parameters between the first ironing and pressing piece 102 and the second ironing and pressing piece 103 are set to be in a proper range, so that the round rope 200 is ironed and pressed. When the ironing pressing equipment is adopted to iron and press the round rope 200, the round rope is positioned in the ironing pressing channel, the round rope is not easy to deform in the ironing pressing process, the round shape of the round rope can be effectively kept, and the processing requirement of the round rope ironing pressing is met. In addition, after a certain section of the round rope is ironed, the position of the round rope in the ironing channel is adjusted, so that the continuous processing of the ironing of the round rope can be realized, and the processing efficiency is improved.

In one particular example, the first press member 102 and/or the second press member 103 are press plates. Preferably, the first pressing piece 102 and the second pressing piece 103 are both pressing pieces.

In one specific example, the circular rope ironing device 100 is composed of a base 101, a first ironing member 102, and a second ironing member 103. The first ironing and pressing piece 102 is provided with a first arc-shaped through groove 1021, and the second ironing and pressing piece 103 is provided with a second arc-shaped through groove 1031. First boiling hot casting and pressing piece 102 and/or second boiling hot casting and pressing piece 103 swing joint in base 101, first arc logical groove 1021 and second arc logical groove 1031 can cooperate each other and form the passageway that scalds that is used for scalding and pressing round rope 200, and first boiling hot casting and pressing piece 102 and second boiling hot casting and pressing piece 103 can cooperate each other in order to be used for adjusting the distance between first arc logical groove 1021 and the second arc logical groove 1031. The round rope ironing and pressing device 100 in the example is composed of the base 101, the first ironing and pressing piece 102 and the second ironing and pressing piece 103, the round rope can be effectively ironed and pressed, the round shape of the round rope can be effectively kept, the processing requirement of the round rope ironing and pressing is met, the continuous processing of the round rope ironing and pressing can be realized, and the processing efficiency is improved.

As a preferable scheme, the first arc-shaped through groove 1021 is an arc-shaped through groove, and a central angle of an arc of a radial cross section of the first arc-shaped through groove 1021 is 178 ° to 183 °. Can realize the good cooperation of first arc through groove 1021 with the round rope this moment, further improve the stability of the circular shape of in-process round rope that scalds. The angle is too big, and the round rope atress is uneven, and the too little round rope of angle is difficult to complete pressfitting, appears the problem of deformation easily at the edge of arc wall. Specifically, the central angle of the arc of the radial cross-section of the first arcuate channel 1021 may be, but is not limited to 178 °, 179 °, 180 °, 181 °, 182 °, 183 °, or the like. Further preferably, in order to make the first arc-shaped through groove 1021 fit with the round rope well, an angle other than 180 ° is adopted as a central angle of the circular arc of the radial section of the first arc-shaped through groove 1021.

Further, the second arc through groove 1031 is an arc through groove, and a central angle of an arc of a radial cross section of the second arc through groove 1031 is 178 ° to 183 °. Can realize the good cooperation of second arc logical groove 1031 and round rope this moment, further improve the stability of the circular shape of hot pressing in-process round rope. The angle is too big, and the round rope atress is uneven, and the too little round rope of angle is difficult to complete pressfitting, appears the problem of deformation easily at the edge of arc wall. Specifically, the central angle of the arc of the radial cross section of the second arcuate through slot 1031 may be, but is not limited to 178 °, 179 °, 180 °, 181 °, 182 °, 183 °, or the like. Further preferably, in order to make the second arc through slots 1031 fit with the round cord better, an angle other than 180 ° is adopted as the central angle of the arc of the radial cross section of the second arc through slots 1031.

Further, a central angle of the circular arc of the radial section of the first arc through groove 1021 is equal to a central angle of the circular arc of the radial section of the second arc through groove 1031. At this moment, the groove 1021 is led to first arc and the groove 1031 is led to the second arc more even to the effort of circle rope, can improve the uniformity to the circle rope effect, keeps the circle rope more effectively and scalds the stability of pressing the circular structure of in-process.

In one particular example, the radius of the radial cross-section of the first arcuate channel 1021 is between 1mm and 4 mm. In the actual processing process, the diameter of the round rope is usually a smaller size, and the radius of the radial section of the first arc-shaped through groove 1021 is set to be 1-4 mm, so that the processing requirement of the conventional round rope can be met. For example, the radius of the radial cross section of the first arc-shaped through groove 1021 is 1mm, 1.2mm, 1.5mm, 1.8mm, 2mm, 2.5mm, 2.8mm, 3mm, 3.2mm, 3.5mm, 3.8mm, or 4 mm.

Corresponding to the first arc through groove 1021, the radius of the radial section of the second arc through groove 1031 is 1mm to 4 mm. The radius of the radial section of the second arc-shaped through groove 1031 is set to be 1-4 mm, so that the processing of a conventional round rope can be met. For example, the radius of the radial cross section of the second arc through slot 1031 is 1mm, 1.2mm, 1.5mm, 1.8mm, 2mm, 2.5mm, 2.8mm, 3mm, 3.2mm, 3.5mm, 3.8mm, or 4 mm.

Preferably, the radius of the radial cross section of the first arcuate through slot 1021 and the radius of the radial cross section of the second arcuate through slot 1031 are equal. At this moment, pressing the in-process scalding, can effectively improve the first arc and lead to groove 1021 and the logical groove 1031 of second arc and to the homogeneity of circle rope effort, further improve the quality of pressing of scalding of circle rope.

It should be noted that there are a plurality of first arc through grooves 1021, and a plurality of second arc through grooves 1031; the plurality of first arc through grooves 1021 and the plurality of second arc through grooves 1031 can be in one-to-one correspondence to form a plurality of ironing passages. Through the setting that logical groove 1021 and second arc lead to groove 1031 through a plurality of first arcs, can scald many cords simultaneously and press, improve the processing efficiency that the round cord scalded and pressed.

Referring to fig. 2 again, in the present embodiment, there are 2 first arc through grooves 1021, and 2 second arc through grooves 1031; in the round rope ironing process, the 2 first arc through grooves 1021 and the 2 second arc through grooves 1031 can be opposite to each other one by one to form 2 ironing passages for the 2 round ropes 200 to pass through and ironing. It can be appreciated that the number of the first arc-shaped through slots 1021 is equal to the number of the second arc-shaped through slots 1031. For example, the number of the first arc-shaped through grooves 1021 is 2 to 8, and the number of the second arc-shaped through grooves 1031 is 2 to 8. Specifically, the number of the first arc-shaped through slots 1021 is 2, 3, 4, 5, 6, 7 or 8, and the number of the second arc-shaped through slots 1031 is 2, 3, 4, 5, 6, 7 or 8.

Further, when the first arc-shaped through groove 1021 is multiple, and the second arc-shaped through groove 1031 is multiple, the multiple first arc-shaped through grooves 1021 are uniformly distributed on the first ironing part 102, and the multiple second arc-shaped through grooves 1031 are uniformly distributed on the second ironing part 103. The logical groove 1031 of a plurality of first arcs that evenly distributed set up leads to 1021 and a plurality of second arcs of evenly distributed is convenient for machine-shaping, can also improve the uniformity that the round rope scalds the pressure.

In one particular example, the circular rope ironing apparatus 100 further comprises a first ironing mount 104 and/or a second ironing mount 105. A first press mount 104 is connected to the first press 102 for mounting the first press 102 to the device. The second press mounting member 105 is connected to the second press 103 for mounting the second press 103 to the apparatus.

Referring to fig. 1 again, the round rope ironing apparatus 100 further includes a driving mechanism 106; the driving mechanism 106 is connected with the first pressing member 102 for driving the first pressing member 102 to move so as to adjust the distance between the first arc-shaped through slot 1021 and the second arc-shaped through slot 1031. It is understood that the drive mechanism 106 may be, but is not limited to, a telescopic cylinder, a hydraulic drive mechanism, or the like. Preferably, the second press part 103 is fixed to the base 101. The second scalds casting die 103 to be fixed in the base plate, adjusts the distance that first arc leads to groove 1021 and second arc to lead to groove 1031 through adjusting first boiling die 102, adjusts convenient and fast more.

In a specific example, the round rope ironing apparatus 100 further includes a material guiding platform 107; the material guiding platform 107 extends outwards from both ends of the base 101 for guiding the round rope 200 to be fed and received. Through the setting of guide platform 107, can further improve the stability of round rope in the course of working. Specifically, the second pressing member 103 is fixed to the material guiding platform 107, and the first pressing member 102 and the second pressing member 103 are located on the same side of the material guiding platform 107.

It is understood that the round rope ironing apparatus 100 further includes a feeding mechanism and/or a receiving mechanism; the feeding mechanism and the receiving mechanism are respectively located on two sides of the base 101 for feeding and receiving the round rope 200. Carry out the feeding and receive the material to the round rope respectively through feed mechanism and receiving agencies, improve the efficiency that the round rope ironed and pressed the processing, accomodate the round rope in order, improve the regularity of processing scene.

Referring to fig. 5, another embodiment of the present invention provides a round rope printing method, which includes the following steps: carrying out primary ironing treatment on the round rope to obtain an ironed round rope; forming a preset pattern on the thermal sublimation transfer medium 300 to obtain a pattern transfer medium; laminating the pattern transfer medium and the hot-pressing round rope, and enabling the surface of the pattern transfer medium with the preset pattern to be close to the hot-pressing round rope to obtain a transfer round rope; and carrying out second ironing treatment on the transfer printing round rope.

With the increasing popularity of product diversification, consumers want to be able to present various graphics on round ropes as well. However, due to the structural characteristics of the round rope, the traditional printing method is difficult to realize printing on the round rope. In the round rope printing method in this embodiment, the round rope is first ironed to improve the processability of the round rope, and then the preset pattern is transferred to the round rope through the second ironing by the thermal sublimation transfer medium 300. Thus, the preset pattern can be displayed on the round rope, and the appearance diversity of the round rope is improved. Moreover, the round rope printing method in the embodiment has a good customization effect, and can form a required preset pattern on the thermal sublimation transfer medium 300, so that the customization requirements of diversity are met.

In one specific example, the steps of the round rope printing method are as follows: carrying out primary ironing treatment on the round rope to obtain an ironed round rope; forming a preset pattern on the thermal sublimation transfer medium 300 to obtain a pattern transfer medium; laminating the pattern transfer medium and the hot-pressing round rope, and enabling the surface of the pattern transfer medium with the preset pattern to be close to the hot-pressing round rope to obtain a transfer round rope; and carrying out second ironing treatment on the transfer printing round rope.

In a specific example, the first ironing process includes the steps of: the round rope ironing device 100 is adopted to perform ironing treatment on the round rope; the round rope ironing and pressing device 100 comprises a base 101, a first ironing and pressing piece 102 and a second ironing and pressing piece 103. The first ironing and pressing piece 102 is provided with a first arc-shaped through groove 1021, and the second ironing and pressing piece 103 is provided with a second arc-shaped through groove 1031. First boiling hot casting and pressing piece 102 and/or second boiling hot casting and pressing piece 103 swing joint in base 101, first arc logical groove 1021 and second arc logical groove 1031 can cooperate each other and form the passageway that scalds that is used for scalding and pressing round rope 200, and first boiling hot casting and pressing piece 102 and second boiling hot casting and pressing piece 103 can cooperate each other in order to be used for adjusting the distance between first arc logical groove 1021 and the second arc logical groove 1031.

Adopt this round rope to scald equipment 100 to scald the processing of pressing for the first time to the round rope, can carry out the pre-setting to the round rope, scald the in-process, the round rope is located scalds and presses the passageway, and the round rope is difficult for appearing warping, can effectively keep the circular shape of round rope, realizes the full seal stamp of circumference formula on the round rope, satisfies the processing requirement that the round rope scalds the pressure, can also realize the round rope and scald the continuous processing of pressing, improves machining efficiency.

In another specific example, the second ironing process includes the steps of: the transfer round rope is subjected to hot pressing treatment by adopting a round rope hot pressing device 100; the round rope ironing and pressing device 100 comprises a base 101, a first ironing and pressing piece 102 and a second ironing and pressing piece 103. The first ironing and pressing piece 102 is provided with a first arc-shaped through groove 1021, and the second ironing and pressing piece 103 is provided with a second arc-shaped through groove 1031. First boiling hot casting and pressing piece 102 and/or second boiling hot casting and pressing piece 103 swing joint in base 101, first arc logical groove 1021 and second arc logical groove 1031 can cooperate each other and form the passageway that scalds that is used for scalding and pressing round rope 200, and first boiling hot casting and pressing piece 102 and second boiling hot casting and pressing piece 103 can cooperate each other in order to be used for adjusting the distance between first arc logical groove 1021 and the second arc logical groove 1031.

Adopt this circle rope to scald equipment 100 to carry out the second time to the rendition circle rope and scald the processing, will predetermine the pattern and transfer to the rendition circle on the rope, scald the in-process, the circle rope is located and scalds the pressure passageway, and the rendition circle rope is difficult for appearing warping, can effectively keep the circular shape of rendition circle rope, realizes the full seal stamp of circumferencial formula on the circle rope, satisfies the processing requirement that the circle rope scalds the pressure, can also realize the continuous processing that the circle rope scalds the pressure, improves machining efficiency. In addition, a desired preset pattern can be formed on the thermal sublimation transfer medium 300, and the customization requirements of diversity can be met.

It should be noted that the first arc-shaped through groove 1021 is an arc-shaped through groove, and a central angle of an arc of a radial section of the first arc-shaped through groove 1021 is 178-183 degrees; and/or the second arc through groove 1031 is an arc through groove, and the central angle of the arc of the radial cross section of the second arc through groove 1031 is 178-183 degrees.

It should be noted that the round rope ironing apparatus 100 in any of the above embodiments, examples, or technical solutions may be selected as the round rope ironing apparatus used in the first ironing process and the second ironing process.

In a specific example, the ironing temperature of the first ironing treatment is 180-200 ℃, and the ironing pressure is 0.5kg/cm²～1.0kg/cm²When pressing with ironThe time is 15s to 25 s. In the actual ironing process, the appropriate ironing treatment parameters are selected according to the properties of the round rope. It is understood that the ironing temperature of the first ironing treatment is 180 ℃, 185 ℃, 190 ℃, 195 ℃ or 200 ℃; the hot pressing pressure is 0.5kg/cm²、0.6kg/cm²、 0.7kg/cm²、0.8kg/cm²、0.9kg/cm²Or 1.0kg/cm²(ii) a The ironing time is 15s, 16s, 17s, 18s, 19s, 20s, 21s, 22s, 23s, 24s or 25 s. In the actual ironing, the temperature, pressure, and time of the first ironing process may be arbitrarily selected and combined among the respective parameters of the first ironing process listed above.

Further, the ironing temperature of the second ironing treatment is 180-210 ℃, and the ironing pressure is 2.5kg/cm²～5.0kg/cm²The ironing time is 20-30 s. It is understood that the ironing temperature of the second ironing process is 180 ℃, 185 ℃, 190 ℃, 195 ℃, 200 ℃, 205 ℃ or 210 ℃; the ironing pressure is 2.5kg/cm²、3.0kg/cm²、3.5kg/cm²、4kg/cm²、4.5kg/cm²Or 5.0kg/cm²(ii) a The ironing time is 20s, 21s, 22s, 23s, 24s, 25s, 26s, 27s, 28s, 29s or 30 s. At the time of actual ironing, the temperature, pressure, and time of the second ironing process may be arbitrarily selected and combined among the respective parameters of the second ironing process listed above.

In the printing process, the round rope and the transfer printing round rope need to be ironed, and the ironing process has certain temperature, pressure and ironing time. For a conventional textile round rope, the round rope is flattened and cannot be restored to a round shape under the ironing condition, so that the traditional ironing equipment and method are difficult to effectively iron the round rope. Utility model people have obtained above-mentioned round rope and have scalded pressing equipment 100 after carrying out deep research through the performance to the round rope and scalding pressing equipment, adopt above-mentioned round rope to scald pressing equipment 100 and can satisfy the requirement of scalding pressing of round rope, and can not influence the circular shape of round rope, be particularly suitable for scalding pressing processing to the round rope. Meanwhile, the circular rope ironing equipment 100 and the heat transfer medium are adopted, the preset patterns can be effectively transferred onto the circular rope, the printing operation on the circular rope is completed, the printing circular rope with various patterns is obtained, and the consumption requirements of consumers on the diversified appearances of the circular rope are met.

In a specific example, the radius of the radial cross section of the first arc-shaped through groove 1021 of the round cord ironing apparatus 100 used in the second ironing process is not smaller than the radius of the radial cross section of the first arc-shaped through groove 1021 of the round cord ironing apparatus 100 used in the first ironing process.

More specifically, the radius of the radial cross section of the first arc-shaped through groove 1021 of the round-rope ironing apparatus 100 used in the second ironing process is equal to the radius of the radial cross section of the first arc-shaped through groove 1021 of the round-rope ironing apparatus 100 used in the first ironing process. Or, preferably, the radius of the radial cross section of the first arc-shaped through groove 1021 of the round rope ironing apparatus 100 used in the second ironing process is 0.2mm to 0.5mm larger than the radius of the radial cross section of the first arc-shaped through groove 1021 of the round rope ironing apparatus 100 used in the first ironing process. For example, the radius of the radial cross section of the first arc-shaped through groove 1021 of the round rope ironing and pressing apparatus 100 used in the second ironing and pressing process is 0.2mm, 0.3mm, 0.4mm, or 0.5mm larger than the radius of the radial cross section of the first arc-shaped through groove 1021 of the round rope ironing and pressing apparatus 100 used in the first ironing and pressing process. When the processing is scalded and pressed for the second time, the rendition circle rope surface is with thermal sublimation transfer printing medium 300, and the radius that the radial cross-section that the circle rope that the processing was used was scalded and pressed to the second time scalds that the radial cross-section that the groove 1021 was led to the first arc that the processing was used was scalded and pressed to the circle rope that the processing was used was greater than the radius that the radial cross-section that the groove 1021 was led to the first time scald and pressed to the circle rope that the processing was used, can avoid leading to the rendition circle rope surface to appear the indentation because of the size mismatch, defect such as corrugate, influence the circular shape processingquality of rendition. When the radius of the radial section of the first arc-shaped through groove 1021 of the round rope ironing and pressing equipment 100 used for the second ironing and pressing treatment is 0.2-0.5 mm larger than the radius of the radial section of the first arc-shaped through groove 1021 of the round rope ironing and pressing equipment 100 used for the first ironing and pressing treatment, the transfer-printing round rope after the ironing and pressing treatment is finished has good surface consistency and high quality.

Preferably, the round rope is woven by yarns with the fineness of 50D-300D. Specifically, the round rope is woven from yarns having a fineness of 50D, 60D, 70D, 80D, 90D, 100D, 150D, 200D, 250D, or 300D. Further preferably, the fibers of the yarn are at least one of polyester fibers, nylon fibers and nylon fibers. More preferably, the polyester fibers are cationic dyeable polyester fibers.

Further preferably, the yarn is dyed before weaving the round cord. More preferably, before weaving the round rope, the yarns are dyed into light colors, and the light colors are easier to show the shape and the color of the pattern, so that the richness of the color of the round rope is improved. For example, the light color can be white, tin white, goose yellow, light pink, fruit green, pink green, light blue, light purple, and the like. Even more preferably, the yarn is dyed with a cationic dye, an acid dye or a disperse dye. It is understood that the cationic dye is dissolved in water in a cationic state and ionized in an aqueous solution to produce positively charged colored ions. More preferably, when the yarn fiber is the cationic dyeable polyester fiber, cationic dye is adopted; when the yarn fiber is nylon fiber, acid dye is adopted; when the yarn fiber is nylon fiber, disperse dye is adopted.

In the process of weaving the yarn into the round rope, the diameter of the round rope is 2mm to 8mm, such as 2mm, 3mm, 4mm, 5mm, 6mm, 7mm or 8 mm. Further, in the process of weaving the yarns into the round rope, the tightness of the round rope is controlled as follows: at 20g/cm²Under the pressure of (2), the diameter deformation amount is less than 5%, so that the round rope can keep good structural stability in subsequent processing.

In a specific example, the forming of the preset pattern on the thermal sublimation transfer medium 300 is forming the preset pattern on the thermal sublimation transfer medium 300 by means of digital printing. The mode of digital printing is convenient for form and is predetermine the pattern, conveniently carries out various design to predetermineeing the pattern, satisfies the requirement of round rope variety.

Preferably, the forming of the preset pattern on the thermal sublimation transfer medium 300 includes the steps of: a preset pattern is formed on the two thermal sublimation transfer media 300, resulting in two pattern transfer media. The preset patterns are formed on the two thermal sublimation transfer printing media 300, so that the subsequent processing of the round rope pattern transfer printing is facilitated. At this time, the stacking of the pattern transfer medium and the hot-pressed round string includes the steps of: the two pattern transfer media and the hot-pressing round rope are placed in a stacked mode, the hot-pressing round rope is located between the two pattern transfer media, and the surfaces, provided with the preset patterns, of the two pattern transfer media are close to the hot-pressing round rope respectively. Through form preset pattern on two thermal sublimation transfer media 300, obtain two pattern transfer media, then will scald and press the circle rope and place in the centre of two pattern transfer media, be convenient for will predetermine the pattern and transfer to the circle rope. Simultaneously, owing to place the hot pressing circle rope in the centre of two pattern transfer printing media and carry out the rendition, conveniently counterpoint the pattern, improve the degree of accuracy of pattern on the circle rope.

Further preferably, the preset patterns are formed on the two thermal sublimation transfer media 300, and the preset patterns formed on the two thermal sublimation transfer media 300 are controlled to have alignment sites. The alignment position points can be nonlinear patterns, tooth-shaped patterns, dotted icons or 0.2-1.0 mm white leaving treatment at the interface by utilizing a light background color effect and the like. The preset patterns formed on the two thermal sublimation transfer printing media 300 are controlled to have alignment points, so that the alignment precision of the pattern transfer process is improved, and the integrity and consistency of the patterns on the round rope are improved.

In one particular example, the thermal sublimation transfer medium 300 is a thermal sublimation transfer paper. The thermal sublimation transfer paper can conveniently realize digital printing and transfer a preset pattern onto a round rope. In actual use, commercially available thermal sublimation transfer paper may be used.

In a specific example, at the time of the second ironing process, the feeding direction of the thermal sublimation transfer medium 300 is perpendicular to the feeding direction of the ironing round string. This facilitates the collection of the thermal sublimation transfer medium 300. In addition, when the stamp is only needed to be ironed and pressed for the second time at the rope end of the ironing and pressing round rope or at a specific position of the ironing and pressing rope end, the feeding direction of the thermal sublimation transfer medium 300 is perpendicular to the feeding direction of the ironing and pressing round rope, so that the usage amount of the thermal sublimation transfer medium 300 can be reduced, and the production cost is reduced.

In a specific example, the round rope printing method further comprises the following steps: and fixing the color of the transfer printing round rope after the second ironing treatment. The color fixing treatment can improve the color stability of the round rope, so that the round rope is not easy to fade in the use process, the color of the round rope is kept, and the quality of the round rope is improved.

Specifically, the color fixing solution for color fixing treatment is formed by mixing a color fixing agent, citric acid and water; wherein, the color fixing agent is 5 g/L-10 g/L, and the organic acid is 1 g/L-7 g/L. Preferably, the organic acid is citric acid and/or acetic acid. More preferably, when the organic acid is citric acid, the concentration of the citric acid is 1 g/L-3 g/L; when the organic acid is acetic acid, the concentration of the acetic acid is 3 g/L-7 g/L. More specifically, the color fixing agent comprises the following components in percentage by mass: 30-50% of waterborne polyurethane, 30-45% of polyether type polyhydroxy polymer and the balance of water. Preferably, the molecular weight of the waterborne polyurethane is 1000-6000, and the molecular weight of the polyether type polyhydroxy polymer is 600-4000. In one example, the fixing agent is formed by mixing water-based polyurethane, polyether type polyhydroxy polymer and water.

In the color fixing treatment process, the temperature of the color fixing treatment is 50-70 ℃, and the time of the color fixing treatment is 20-40 min. For example, the temperature of the fixation treatment is 50 ℃, 55 ℃, 60 ℃, 65 ℃ or 70 ℃; the fixation treatment time is 20min, 23min, 25min, 30min, 35min, 38min or 40 min. It will be appreciated that the temperature and time of the fixing treatment may be chosen and combined arbitrarily within the ranges set out above for the fixing treatment.

After the fixation treatment, the moisture content of the round rope is higher. Thus, in one specific example, the round rope printing method further comprises the steps of: and drying the transfer printing round rope after the color fixing treatment. Specifically, the temperature of the drying treatment is 60-100 ℃, and the time of the drying treatment is 1-3 h. For example, the temperature of the drying treatment is 60 ℃, 70 ℃, 80 ℃, 90 ℃ or 100 ℃; the drying time is 1h, 1.2h, 1.5h, 2h, 2.5h or 3 h. It is to be understood that the temperature and time of the drying process may be arbitrarily selected and combined within the above-listed temperature and time ranges of the drying process.

It is understood that in order for the round rope to meet the delivery size or design size, the round rope printing method further comprises the following steps: and cutting the transfer printing round rope after drying treatment. Specifically, the cutting process is a camera positioning cutting process. The camera shooting positioning cutting process can accurately cut the round rope to a required length so as to meet delivery or design requirements.

In a specific example, the round rope printing method further comprises the following steps: and carrying out rope end auxiliary processing on the transfer printing round rope after the cutting processing. And carrying out rope end auxiliary processing on the transfer printing round rope after cutting processing, and processing the rope end to meet the required standard. For example, the hardness, strength, etc. of the rope end are improved. It is understood that the auxiliary processing treatment of the rope end is a dipping treatment of the rope end or a wrapping treatment of the rope end. Namely, plastic, metal head and the like are wrapped at the rope end to improve the quality of the rope end.

The following are specific examples.

Example 1

The fibers of the yarn in this example are 150D cationic dyeable polyester fibers. The yarn in this example was obtained by spinning cationic dyeable polyester fibers.

The round rope printing method in the embodiment comprises the following steps:

s1, yarn dyeing: the yarn was dyed to a pale Blue color using a cationic dye (maylon Blue GRL 300%, purchased from gasoline dyes ltd).

S2, braiding: weaving the dyed yarn in the S1 into a round rope with the diameter of 4mm, and controlling the tightness of the woven round rope as follows: at 20g/cm²The diameter deformation amount is less than 5% under the pressure of (3).

S3, first ironing: adopt the utility model provides a round rope scalds presses equipment 100 and scalds the pressure to carry out the first time to the round rope in S2 and handle. Wherein the central angle of the arc of the radial section of the first arc-shaped through groove 1021 is 178 degrees, and the radius of the radial section of the first arc-shaped through groove 1021 is 2 mm; the central angle of the arc of the radial cross section of the second arc through groove 1031 is 178 °, and the radius of the radial cross section of the second arc through groove 1031 is 2 mm. The ironing temperature of the first ironing treatment is 190 ℃, and the ironing pressure is0.6kg/cm²The ironing time was 20 seconds. And obtaining the hot-pressed round rope after the first hot-pressing treatment.

And S4, forming a preset pattern on the thermal sublimation medium: form preset patterns on two thermal sublimation transfer printing papers through digital printing.

S5, placing the thermal sublimation transfer paper and the hot-pressing round rope: will scald and press the range upon range of the circle rope and transfer printing paper of two thermal sublimation and place, make to scald and press the circle rope and be located between two thermal sublimation transfer printing paper, the thermal sublimation is transferred the surface that printing paper has the preset pattern and is close to and scalds and presses the circle rope, and accomplishes the counterpoint. Obtaining the transfer printing round rope.

S6, second ironing treatment: adopt the utility model provides a round rope scalds presses equipment 100 to carry out the second time to scald and press the processing to the rendition round rope in S5. Wherein the central angle of the arc of the radial section of the first arc-shaped through groove 1021 is 178 degrees, and the radius of the radial section of the first arc-shaped through groove 1021 is 2.2 mm; the central angle of the arc of the radial cross section of the second arc through groove 1031 is 178 °, and the radius of the radial cross section of the second arc through groove 1031 is 2.2 mm. The ironing temperature of the second ironing treatment is 200 ℃, and the ironing pressure is 3.0kg/cm²The ironing time was 25 seconds. When the processing is scalded and pressed for the second time, the feeding direction of thermal sublimation transfer printing paper is perpendicular to the feeding direction of the transfer printing round rope. And obtaining a printed round rope preform after the second ironing treatment.

S7, color fixing treatment: and (5) carrying out color fixing treatment on the printed round rope preform subjected to the second ironing in the step S6. Wherein the color fixing solution is formed by mixing a color fixing agent, citric acid and water; specifically, the color fixing agent is 8g/L and the citric acid is 1.5g/L in the color fixing solution. The color fixing agent comprises the following components in percentage by mass: 35% of waterborne polyurethane, 40% of polyether type polyhydroxy polymer and the balance of water. The temperature of the fixation treatment is 50 ℃, and the time of the fixation treatment is 25 min.

S8, drying: and (5) drying the printed round rope preform subjected to color fixing treatment in the step S7, wherein the drying temperature is 80 ℃, and the drying time is 1.5 h.

S9, cutting: and cutting the printed round rope preform after the drying treatment in the step S8. Specifically, the printed round rope preform after drying treatment is cut into corresponding lengths by adopting camera shooting positioning cutting treatment.

S10, auxiliary processing of the rope ends: and (4) performing rope end auxiliary processing on the printed round rope preform subjected to cutting processing in the step (S9), and forming wrapping plastics on the rope end through gum dipping. And obtaining the printing round rope after the auxiliary processing treatment of the rope end.

Example 2

The present embodiment is different from embodiment 1 in that: the fibers of the yarn were 150D nylon fibers. The yarn in this example was obtained by spinning nylon fibers. In S1, the yarn was dyed a pale Blue color using an acid dye (Nylon Blue N-5GL 200%, available from Claien chemical Co., Ltd.).

Example 3

The present embodiment is different from embodiment 1 in that: the fibers of the yarn were 150D nylon fibers. The yarn in this example was obtained by spinning an aramid fiber. At S1 the yarn was dyed a light Blue color using a disperse dye (hensmy Danix Blue XF, available from hensmy chemical trade (shanghai) ltd).

Comparative example 1

This comparative example differs from example 1 in that: at S1 the yarn was dyed a light Blue color using a disperse dye (hensmy Danix Blue XF, available from hensmy chemical trade (shanghai) ltd).

Comparative example 2

This comparative example differs from example 1 in that: in S1, the yarn was dyed a pale Blue color using an acid dye (Nylon Blue N-5GL 200%, available from Claien chemical Co., Ltd.).

Comparative example 3

This comparative example differs from example 1 in that: the fiber of the yarn is a mixed fiber of 150D cotton fiber and cation dyeable polyester fiber, wherein the cotton fiber and the cation dyeable polyester fiber respectively account for 50 percent. The yarn in this comparative example was obtained by spinning mixed fibers.

Comparative example 4

This comparative example differs from example 1 in that: control in S2The tightness of the braided round rope is as follows: at 20g/cm²The amount of diameter deformation was 6%.

Comparative example 5

This comparative example differs from example 1 in that: s3, in the first ironing and pressing process, the surfaces of the first ironing and pressing piece 102 and the second ironing and pressing piece 103 close to the round rope are both planes; in the second ironing and pressing process of S6, the surfaces of the first ironing and pressing member 102 and the second ironing and pressing member 103 close to the transfer round string are both flat.

Comparative example 6

This comparative example differs from example 1 in that: in the second ironing processing procedure of S6, the radius of the radial cross section of the first arc through groove 1021 is 2mm, and the radius of the radial cross section of the second arc through groove 1031 is 2 mm.

Comparative example 7

This comparative example differs from example 1 in that: s3, in the first ironing process, the central angle of the arc of the radial cross-section of the first arc through groove 1021 is 176 °; in the second ironing process of S6, the central angle of the arc of the radial cross section of the first arc-shaped through groove 1021 is 176 °.

Comparative example 8

This comparative example differs from example 1 in that: s3, in the first ironing process, the central angle of the arc of the radial cross-section of the first arc through groove 1021 is 185 °; in the second ironing process of S6, the central angle of the arc of the radial cross section of the first arc-shaped through groove 1021 is 185 °.

Comparative example 9

This comparative example differs from example 1 in that: s3, in the first ironing process, the central angle of the arc of the radial cross-section of the first arc through groove 1021 is 176 °; in the second ironing process of S6, the central angle of the arc of the radial cross section of the first arc-shaped through groove 1021 is 185 °.

Comparative example 10

This comparative example differs from example 1 in that: s3, in the first ironing process, the central angle of the arc of the radial cross-section of the first arc through groove 1021 is 185 °; in the second ironing process of S6, the central angle of the arc of the radial cross section of the first arc-shaped through groove 1021 is 176 °.

Comparative example 11

This comparative example differs from example 1 in that: s6 in the second ironing process, the feeding direction of the thermal sublimation transfer paper is parallel to the feeding direction of the transfer round rope.

Comparative example 12

This comparative example differs from example 1 in that: the fixation treatment of S7 was not performed.

Comparative example 13

This comparative example differs from example 1 in that: the S9 cutting process uses a non-imaging positioning cutting process.

Comparative example 14

This comparative example differs from example 1 in that: the string end auxiliary processing treatment of S10 is not carried out.

Test example

The printed round ropes obtained in examples 1 to 3 and comparative examples 1 to 14 were subjected to rubbing fastness, washing fastness, water fastness, perspiration fastness, storage fastness, washing shrinkage tests and printed appearance. Wherein, the rubbing fastness test method is carried out according to ISO 105-X16-2016 (the result is not less than grade 4 and is qualified); the washing fastness test method is carried out according to AATCC 6150 ℃ for 30min (the result is not less than 4 grade, the product is qualified); the water fastness test method is carried out according to ISO 105-E01-2013 (the result is not less than grade 4 and is qualified); the perspiration fastness test method is carried out according to ISO 105-E04-2013 (the result is not less than grade 4 and is qualified); the storage fastness test method is carried out according to AATCC163-2018 (the result is not less than 4 grade, the result is qualified); the washing shrinkage test method is carried out according to ISO 139-2011 (the result is not more than 3 percent, which is qualified).

The test results are shown in the following table.

As can be seen from the test results in the above table, the friction fastness, washing fastness, water fastness, perspiration fastness, storage fastness, washing shrinkage test and printing appearance of the printed round ropes in the embodiments 1 to 3 all meet the requirements. The friction fastness, washing fastness, water fastness, perspiration fastness, storage fastness, washing shrinkage rate tests and printed appearance of the printed round ropes in the comparative examples 1 to 6, 7 to 10 and 12 can not completely meet the requirements. Although the rubbing fastness, washing fastness, water fastness, perspiration fastness, storage fastness, washing shrinkage test and printed appearance were satisfactory in comparative examples 11, 13 and 14. But the cooperation mode between thermal sublimation changes printing paper and the round rope is inflexible in comparative example 11, when the stamp only need scald the fag end of pressing the round rope, perhaps scald when pressing the fag end specific position and scald and press the processing for the second time, the use amount of thermal sublimation changes printing paper will obviously increase, causes a large amount of wastes. The consistency of the cut part of the round printing rope after cutting treatment in the comparative example 13 is poor, and when mass production is needed, the size of the round printing rope after cutting is difficult to unify, more leftover materials are generated, and a large amount of waste is caused. The rope head in the comparative example 14 has single expression form, lacks diversity and is difficult to meet the diversified demands of consumers.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A round rope ironing and pressing device is characterized by comprising a base, a first ironing and pressing piece and a second ironing and pressing piece;

the first ironing part is provided with a first arc-shaped through groove, and the second ironing part is provided with a second arc-shaped through groove; the first ironing part and/or the second ironing part are movably connected to the base, the first arc-shaped through groove and the second arc-shaped through groove can be matched with each other to form an ironing channel for ironing a round rope, and the first ironing part and the second ironing part can be matched with each other to adjust the distance between the first arc-shaped through groove and the second arc-shaped through groove.

2. The round rope ironing device according to claim 1, wherein the first arc-shaped through groove is an arc-shaped through groove, and a central angle of an arc of a radial cross section of the first arc-shaped through groove is 178-183 degrees; and/or the presence of a gas in the gas,

the second arc-shaped through groove is an arc-shaped through groove, and the central angle of an arc of the radial section of the second arc-shaped through groove is 178-183 degrees.

3. The round rope ironing and pressing device according to any one of claims 1 to 2, wherein a central angle of a circular arc of a radial cross section of the first arc-shaped through groove is equal to a central angle of a circular arc of a radial cross section of the second arc-shaped through groove.

4. The round rope ironing and pressing equipment as claimed in any one of claims 1 to 2, wherein the radius of the radial section of the first arc-shaped through groove is 1mm to 4 mm; and/or the presence of a gas in the gas,

the radius of the radial section of the second arc-shaped through groove is 1-4 mm.

5. The cord ironing apparatus according to claim 4, wherein a radius of a radial cross-section of the first arcuate channel and a radius of a radial cross-section of the second arcuate channel are equal.

6. The round rope ironing and pressing equipment as claimed in any one of claims 1 to 2, wherein there are a plurality of first arc-shaped through grooves, and there are a plurality of second arc-shaped through grooves; the first arc-shaped through grooves and the second arc-shaped through grooves can be opposite to each other one by one to form a plurality of ironing channel circular ropes.

7. The round rope ironing apparatus according to any one of claims 1 to 2, further comprising a driving mechanism; the second ironing and pressing piece is fixed on the base; the driving mechanism is connected with the first ironing part and used for driving the first ironing part to move so as to adjust the distance between the first arc-shaped through groove and the second arc-shaped through groove.

8. The round rope ironing device according to any one of claims 1 to 2, further comprising a material guiding platform; the material guide platform extends outwards from two ends of the base and is used for guiding the round rope to feed and receive materials.

9. The round rope ironing device according to claim 8, wherein the second ironing member is fixed to the material guiding platform, and the first ironing member and the second ironing member are located on the same side of the material guiding platform.

10. The round rope ironing and pressing device according to any one of claims 1-2, characterized in that the round rope ironing and pressing device further comprises a feeding mechanism and/or a receiving mechanism; the feeding mechanism and the receiving mechanism are respectively positioned on two sides of the base and used for feeding and receiving the round ropes.

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