CN114790617A

CN114790617A - Pleat cotton type processing method and fabric

Info

Publication number: CN114790617A
Application number: CN202210299857.2A
Authority: CN
Inventors: 王炳坤
Original assignee: Jiaxing Musi Bedroom Supplies Co ltd
Current assignee: Jiaxing Musi Bedroom Supplies Co ltd
Priority date: 2022-03-25
Filing date: 2022-03-25
Publication date: 2022-07-26
Anticipated expiration: 2042-03-25
Also published as: CN114790617B

Abstract

The invention discloses a pleat cotton type processing method and a fabric, relating to the technical field of pleat cotton type processing, wherein the pleat cotton type processing method comprises the following steps: processing a pleated cotton type on a fabric, wherein the pleated cotton type comprises a plurality of lobes, the number of the lobes is 2n, n is more than or equal to 2, n is an integer, the lobes are arranged in pairs, and each pair of lobes are arranged along opposite angles; the needle of the cotton pleating machine takes the pattern center as a routing starting point, after one pair of lobes are processed each time, the needle of the cotton pleating machine returns to the pattern center, and the other pair of lobes are processed; in the process of processing a pair of lobes, after one lobe is processed, a tucking cotton machine needle head drives a sewing line to pass through the center of a flower pattern, and then the other lobe is processed. The sewing thread passes through the center of the flower for n times, and the sewing thread passing through the center of the flower is overlapped with the center of the flower of the pleated cotton pattern in a crossing way, so that the condition that the center of the flower has a routing gap is avoided, the aesthetic feeling of the pleated cotton pattern is enhanced, and the stereoscopic impression effect of the flower pattern is improved.

Description

Pleat cotton type processing method and fabric

Technical Field

The invention relates to the technical field of pleat cotton type processing, in particular to a pleat cotton type processing method and fabric.

Background

In the related technology, in the pleated cotton pattern obtained by adopting the traditional pleated cotton type processing method, the center of the pleated cotton type pattern has a line gap, which causes the aesthetic feeling of the pleated cotton pattern to be reduced and the stereoscopic impression to be not strong; and the defects of wire jumping or wire falling and the like are easy to occur in the processing process of the pleated cotton type, so that the processing efficiency of the pattern is influenced.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a method for processing a pleated cotton pattern, which can effectively avoid the occurrence of a line gap in the center of the pleated cotton pattern, so that the pleated cotton pattern is more attractive and has stronger stereoscopic impression.

The invention also provides a fabric obtained by the pleating cotton type processing method.

A pleated cotton-type processing method of an embodiment of an aspect of the invention includes the steps of: processing a pleated cotton type on a fabric, wherein the pleated cotton type comprises a plurality of lobes, the number of the lobes is 2n, n is more than or equal to 2, n is an integer, the lobes are arranged in pairs, and each pair of lobes are arranged along opposite angles; the needle of the cotton pleating machine takes the center of the pattern as a routing starting point, after each pair of lobes are processed, the needle of the cotton pleating machine returns to the center of the pattern, and the other pair of lobes are processed; in the process of processing a pair of lobes, after one lobe is processed, a tucking cotton machine needle head drives a sewing line to pass through the center of the flower pattern, and then the other lobe is processed.

In some embodiments, n is 2, and the number of lobes of the pleated cotton pattern is 4, the lobes comprising a first lobe, a second lobe, a third lobe, and a fourth lobe, the first lobe and the third lobe being centered symmetrically about the center of the pattern, the second lobe and the fourth lobe being centered symmetrically about the center of the pattern.

In some embodiments, the first lobe and the second lobe are symmetrical about an axis of symmetry, and the axis of symmetry is parallel to the direction of feed movement of the fabric.

In some embodiments, the profile of the first lobe comprises an arc or a straight segment.

In some embodiments, the contour of the first lobe includes a first arc and a second arc, the contour of the third lobe includes a fifth arc and a sixth arc, the first arc and the sixth arc are symmetric about the center of the flower pattern, the second arc and the fifth arc are symmetric about the center of the flower pattern, and the stitches of the gatherer needle are continuously routed in the order of the first arc, the second arc, the sixth arc and the fifth arc.

In some embodiments, the second lobe has a contour that includes a third arc and a fourth arc, the fourth lobe has a contour that includes a seventh arc and an eighth arc, the third arc and the eighth arc are symmetric about the center of the flower pattern, the fourth arc and the seventh arc are symmetric about the center of the flower pattern, and the stitches of the gatherer needle are routed in sequence from the center of the flower pattern, the third arc, the fourth arc, the seventh arc, and the eighth arc.

In some embodiments, the tuck cotton machine stitching is a sewn nylon thread.

The fabric of another embodiment of the invention has the pleated cotton pattern, the pleated cotton pattern is processed by the processing method of the pleated cotton pattern, and the sewing thread passes through the center of the pattern in each pair of lobes, so that no line gap exists in the center of the pattern of the pleated cotton pattern.

In some embodiments, the facing comprises at least one of cloth, rolled cotton, resin cotton or non-woven fabric.

In some embodiments, the fabric comprises a cloth, which is a knitted cloth.

The pleat cotton type processing method of the embodiment of the invention at least has the following beneficial effects: in an embodiment of the invention, the pleated cotton type comprises a plurality of pairs of lobes, wherein each pair of lobes is diagonally arranged in pairs. When the pleat cotton pattern is processed, the needle head of the pleat cotton machine takes the pattern center of the pleat cotton pattern as a wiring starting point, after one pair of lobes are processed each time, the needle head of the pleat cotton machine returns to the pattern center, and then another pair of lobes are processed. After one of the pair of lobes is processed, the cotton pleating needle drives the sewing thread to pass through the center of the flower pattern, and then the processing work of the other lobe is started. The lobes of the embodiment of the invention have n pairs, therefore, in the process of processing the pleated cotton pattern, the needle head of the pleated cotton machine at least drives the sewing thread to pass through the center of the pattern for n times, and the sewing thread passing through the center of the pattern is overlapped with the center of the pleated cotton pattern in a crossing way, thereby avoiding the condition that the center of the pleated cotton pattern has a routing gap, enhancing the aesthetic feeling of the pleated cotton pattern and improving the stereoscopic impression of the pattern of the flower.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The invention is further described with reference to the following figures and examples, in which:

FIG. 1 is a schematic view of a pleated cotton pattern obtained by conventional pleated cotton type processing;

FIG. 2 is a schematic view of stitching and routing of a conventional pleated cotton type processing method, wherein reference numerals 1 to 8 respectively represent the stitching and routing sequence of the conventional processing method;

FIG. 3 is a schematic view of a pleated cotton pattern obtained by the pleated cotton pattern processing method according to the embodiment of the invention;

FIG. 4 is a schematic view of the stitching lanes of a gatherable cotton-type process of an embodiment of the present invention;

FIG. 5 is a schematic view of another pleated cotton type pattern in an embodiment of the invention;

FIG. 6 is a schematic view of a fabric according to another embodiment of the present invention.

Reference numerals:

running gap 100, pleated cotton pattern 10, first lobe 11, first arc 111, second arc 112, second lobe 12, third arc 121, fourth arc 122, third lobe 13, fifth arc 131, sixth arc 132, fourth lobe 14, seventh arc 141, eighth arc 142,

the first lobe 21, the second lobe 22, the third lobe 23, the fourth lobe 24, the fifth lobe 25, the sixth lobe 26, the seventh lobe 27 and the eighth lobe 28.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings only for the convenience of description of the present invention and simplification of the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and the above, below, exceeding, etc. are understood as excluding the present numbers, and the above, below, within, etc. are understood as including the present numbers. If there is a description of first and second for the purpose of distinguishing technical features only, this is not to be understood as indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

In the description of the present invention, unless otherwise specifically limited, terms such as set, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention by combining the specific contents of the technical solutions.

In the description of the present invention, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1, fig. 1 is a pattern of a pleated cotton type obtained by a conventional pleated cotton type processing method. As can be seen from the figure, the gather cotton pattern 10 has a line clearance 100 at the pattern center, and this line clearance 100 significantly affects the aesthetic appearance of the gather cotton pattern and also reduces the three-dimensional effect of the gather cotton pattern.

Referring now to fig. 2, fig. 2 is a schematic view of a stitching line sequence for a conventional pleated cotton type process. Wherein, the reference numerals 1 to 8 in the figure represent the running sequence of the pleat cotton machine needle for processing the pleat cotton pattern 10. Hereinafter, 1 to 8 represent one process, respectively, and as the process 1, refer to a pattern outline designated by the reference numeral 1 of the tuck cotton machine needle processing.

As can be seen from the drawings, in the conventional pleated cotton type processing method, the processing step 5 is started after the processing step 4 of the needles of the pleated cotton machine. In the process, the movement direction of the tucker cotton machine needle is from right to left, and the movement direction is perpendicular to the feeding movement direction of the cloth. When the fabric enters a pleating cotton machine, the fabric is subjected to tension force along the feeding moving direction of the fabric, and the tension force enables the fabric to be tensioned; and generally no additional tension is applied to the fabric in a direction perpendicular to the direction of feed movement of the fabric. Therefore, the traditional pleated cotton type processing method easily causes the fabric to be loosened or deformed and wrinkled, so that the bad conditions of jumping or thread falling are easy to occur, the thread needs to be repaired manually, and the production efficiency of the fabric is seriously influenced.

In the above processing method, if the overlap or the pitch of the sewing threads is too small, the stress on the fabric is concentrated on a point at the center of the pattern of the pleated cotton pattern 10, and the stress on the center part is increased, which tends to increase the frequency of the jumping threads. Therefore, in the above processing method, in order to avoid the case where the fabric is stressed to be concentrated at one point and the high-frequency jump is performed, the thread gap 100 needs to be reserved at the center of the pleated cotton type 10, and the reserved thread gap 100 causes the aesthetic sense of the pleated cotton type to be reduced and the stereoscopic impression to be poor.

In view of the above problems, an embodiment of an aspect of the present invention provides a pleated cotton type processing method.

Referring to fig. 3 and 4, in one aspect of the invention, a method of pleating cotton is disclosed, comprising the steps of: processing a pleat cotton type 10 on a fabric, wherein the pleat cotton type 10 comprises a plurality of lobes, the number of the lobes is 2n, n is more than or equal to 2, n is an integer, the lobes are arranged in pairs, and each pair of lobes are arranged along opposite angles; continuously processing the needle head of the cotton pleating machine by taking the pattern center as a wiring starting point, returning the needle head of the cotton pleating machine to the pattern center after processing one pair of lobes each time, and processing the other pair of lobes; in the process of processing a pair of lobes, after one lobe is processed, a cotton machine needle is gathered to drive a sewing thread to pass through the center of a flower pattern, and then the other lobe is processed.

Wherein, the sewing thread of the pleat cotton machine adopts sewing nylon thread, and the sewing thread is continuous line when the pleat cotton machine processes single pleat cotton pattern.

It should be noted that when the number of lobes of the pleated cotton pattern 10 is 2n, the circumscribed polygon of the outline of the pleated cotton pattern 10 is a 2n polygon having n diagonal lines, and each pair of lobes of the pleated cotton pattern 10 is arranged in pairs along different diagonal lines of the circumscribed 2n polygon. In other words, two lobes located on the same angular line of the circumscribed 2 n-gon are considered as a pair of lobes described in the present application.

In an embodiment of the present invention, the pleated cotton pattern 10 comprises a plurality of pairs of lobes, wherein each pair of lobes is arranged in diagonal pairs. After one of the pair of lobes is processed, the pleat cotton machine needle head drives the sewing thread to pass through the center of the flower pattern, and then the processing work of the outline of the other lobe is started. That is, after each pair of lobes is processed, the needle of the cotton pleating machine drives the sewing thread to pass through the center of the pattern once. When the number of lobes is 2n, the lobes of the pleated cotton pattern 10 have n pairs, and therefore, in the process of processing the pleated cotton pattern 10, the number of times the sewing thread of the needle of the pleating cotton machine passes through the pattern center of the pleated cotton pattern 10 is n times. Since each pair of lobes is respectively arranged along different diagonal lines of the circumscribed 2 n-sided polygon of the pleated cotton pattern 10, the sewing line trajectory passing through the center of the pattern is different in each pair of lobes. That is, the stitching thread passing through the center of the flower pattern is overlapped with the center of the flower pattern in a crossing manner, so that the condition that the center of the pleated cotton pattern 10 has the routing gap 100 is avoided, the aesthetic feeling of the pleated cotton pattern 10 is enhanced, and the stereoscopic effect of the flower pattern is improved.

In some examples, n is 2, the number of lobes of the pleated cotton pattern 10 is 4, the lobes include a first lobe 11, a second lobe 12, a third lobe 13, and a fourth lobe 14, the first lobe 11 and the third lobe 13 are symmetric about the center of the pattern, and the second lobe 12 and the fourth lobe 14 are symmetric about the center of the pattern.

As an example, as shown in fig. 4, the pleated cotton machine pinhead continuously runs the lobe contours of the first lobe 11, the third lobe 13, the second lobe 12 and the fourth lobe 14 in sequence with the center of the pleated cotton pattern 10 as a running starting point, thereby completing the processing of the pattern of the pleated cotton pattern 10. Wherein, the first lobe 11 and the third lobe 13 are regarded as a pair of lobes; the second lobe 12 and the fourth lobe 14 are considered a pair of lobes.

Specifically, after the first lobe 11 is processed, the needle of the gatherer returns to the center of the pattern of the gatherer cotton pattern 10, and then the processing of the third lobe 13 is started. Before the third lobe 13 is processed, the pleating cotton machine needle needs to pass through the center of the flower pattern from the first lobe 11 to start the processing work of the third lobe 13, so as to drive the sewing thread to pass through the center of the flower pattern. After the third lobe 13 is processed, the pleating cotton machine needle returns to the center of the flower pattern again, the second lobe 12 is processed, and finally the fourth lobe 14 is processed. Before the fourth lobe 14 is processed, the tucker needle needs to pass through the center of the flower pattern from the second lobe 12 to continue the processing of the fourth lobe 14, thereby driving the sewing thread through the center of the flower pattern.

In the above embodiment, the order and the path of the stitches of the needle of the cotton pleating machine are defined, so that the needle of the cotton pleating machine passes through the center of the pattern twice, the sewing threads passing through the center of the pattern twice are driven to pass through the center of the pattern twice, and the stitches passing through the center of the pattern twice are overlapped at the center of the pattern in a crossing manner, thereby avoiding the condition that the center of the cotton pleating type 10 has the stitch gap 100, enabling each lobe of the cotton pleating type 10 to be tightly combined, enhancing the aesthetic feeling of the cotton pleating type 10, and improving the stereoscopic effect of the flower pattern.

In the above embodiment, the first lobe 11 and the third lobe 13 are symmetrical about the center of the flower pattern, and the second lobe 12 and the fourth lobe 14 are symmetrical about the center of the flower pattern. That is, the second lobe 12, the third lobe 13, and the fourth lobe 14 can be regarded as being obtained by the first lobe 11 through a circular array with the center of the flower pattern as the center, and the second lobe 12, the third lobe 13, and the fourth lobe 14 are in the same shape as the first lobe 11. The shape of each lobe of the gathering cotton pattern 10 is consistent, so that the routing space of the needle head of the gathering cotton machine during processing the contour of each lobe and the acting force generated on the fabric are kept equal, and the phenomenon of local deformation and wrinkling of the fabric caused by processing the pattern can be effectively relieved.

In other embodiments, n may select a corresponding value according to actual needs, for example, n is 3, 4, or 5.

As an example thereof, referring to fig. 5, n is equal to 4, and the pleated cotton pattern 10 has 8 lobes, namely, lobe one 21, lobe two 22, lobe three 23, lobe four 24, lobe five 25, lobe six 26, lobe seven 27, and lobe eight 28, respectively. Wherein, the first lobe 21 and the fifth lobe 25 are regarded as a pair of lobes; the second lobe 22 and the sixth lobe 26 are regarded as a pair of lobes; the third lobe 23 and the seventh lobe 27 are regarded as a pair of lobes, and the fourth lobe 24 and the eighth lobe 28 are regarded as a pair of lobes.

As one of the processing methods of the above-mentioned pleat cotton pattern 10, when processing the pleat cotton pattern, the pleat cotton pinhead is continuously threaded with the center of the pattern as the sewing thread starting point, and the first lobe 21, the fifth lobe 25, the third lobe 23, the seventh lobe 27, the sixth lobe 26, the second lobe 22, the fourth lobe 24 and the eighth lobe 28 are processed in this order to complete the processing of the pleat cotton pattern 10.

As one of the processing methods of the above-mentioned pleat cotton pattern 10, when processing the pleat cotton pattern, the pleat cotton machine needle is continuously threaded with the pattern center as the sewing thread starting point, and the first lobe 21, the fifth lobe 25, the seventh lobe 27, the third lobe 23, the second lobe 22, the sixth lobe 26, the fourth lobe 24 and the eighth lobe 28 are sequentially processed to complete the processing of the pleat cotton pattern 10.

In some embodiments, the profile of the first lobe 11 includes an arc or a straight line segment.

As some examples thereof, the profile of the first lobe 11, see fig. 3, consists of two arcs. Correspondingly, the profiles of the second vane 12, the third vane 13 and the fourth vane 14 are composed of two arcs.

As an example, referring to fig. 3 and 4, the profile of the first lobe 11 includes a first arc 111 and a second arc 112, the profile of the third lobe 13 includes a fifth arc 131 and a sixth arc 132, the first arc 111 and the sixth arc 132 are symmetrical with respect to the center of the flower pattern, the second arc 112 and the fifth arc 131 are symmetrical with respect to the center of the flower pattern, and the stitches of the cotton tucker needle are sequentially routed in the order of the first arc 111, the second arc 112, the sixth arc 132, and the fifth arc 131.

Further, as shown in fig. 3 and 4, the contour of the second lobe 12 includes a third arc 121 and a fourth arc 122, the contour of the fourth lobe 14 includes a seventh arc 141 and an eighth arc 142, the third arc 121 and the eighth arc 142 are symmetrical with respect to the center of the flower pattern, the fourth arc 122 and the seventh arc 141 are symmetrical with respect to the center of the flower pattern, and the stitches of the tuck cotton machine needle are sequentially routed in the order of the center of the flower pattern, the third arc 121, the fourth arc 122, the seventh arc 141 and the eighth arc 142.

It should be noted that in some preferred embodiments, the first lobe 11 and the second lobe 12 are symmetrical about an axis of symmetry, and the axis of symmetry is parallel to the direction of feed movement of the fabric. Through the arrangement, when the pleated cotton-pattern type lobes are processed, the tension of the sewing threads on the fabric is the same as or opposite to the feeding moving direction of the fabric as much as possible, so that the phenomenon that the fabric loosens or wrinkles in the lobe processing process is effectively avoided, and the frequency of wire jumping or wire jumping is reduced.

Wherein, the symmetry axes of the first lobe 11 and the second lobe 12 are virtual symmetry axes on which the center of the pleated cotton pattern 10 is located, and the virtual symmetry axes divide the pleated cotton pattern 10 into left and right parts.

It is understood that the stitching associated with the needle of the gatherer creates a pulling force on the fabric when the lobe profile of the gatherer cotton 10 is formed. When the fabric enters the pleating cotton machine, the fabric is tensioned along the feeding moving direction of the fabric, and the tension enables the fabric to be tensioned. When the fabric is subjected to the pulling force in the direction same as or opposite to the feeding moving direction of the fabric, the phenomena of loosening or deformation and wrinkling are not easy to occur. And in the direction perpendicular to the feeding moving direction of the fabric, the fabric has no tension in the direction. Therefore, when the fabric is subjected to an external force perpendicular to the feeding moving direction of the fabric, the fabric is easy to loosen or deform and wrinkle, the movement positions of the needle head and the hook of the cotton pleating machine are easy to be not matched, and further, the bad conditions such as wire jumping or wire off are easy to be caused. It should be noted that the above described pulling forces and external forces are all coplanar with the facing.

Particularly to the above embodiment, when the needle of the cotton pleating machine processes the first arc 111, the direction of the tension applied to the fabric can be approximately consistent with the feeding moving direction of the fabric, and the direction and the tension applied to the fabric can be regarded as being on the same straight line; therefore, when the first arc 111 is processed, the fabric is not easy to loose or deform and wrinkle. When the second arc line 112 and the sixth arc line 132 are processed, the direction of the tension applied to the fabric can be approximately opposite to the direction of the feeding and moving of the fabric, and the direction is in the same straight line with the tension applied to the fabric, so that the fabric is not easy to loosen or deform and wrinkle in the process. Similarly, when the gatherer machines the fifth arc 131, the third arc 121, the fourth arc 122, the eighth arc 142 and the seventh arc 141, the direction of the tension applied to the fabric can be approximately consistent with the direction of the fabric feeding and moving. Therefore, the phenomena of loosening, deformation, wrinkling and the like of the fabric are not easy to occur during processing.

From the above analysis, it can be seen that when the method for processing a pleated cotton type 10 in the embodiment of the present invention is used to process the pleated cotton type 10, the pulling force of the needles and the sewing threads on the fabric can be approximately consistent with the feeding moving direction of the fabric, so that the fabric is not easy to loosen or deform and wrinkle, the movement positions of the needles and the hooks of the pleated cotton machine can be effectively ensured to be matched, the occurrence of poor conditions such as jumping or thread slipping can be effectively avoided, and the processing efficiency of the pattern can be ensured.

From the above examples and analysis, it can be seen that the frequency of the skip or run when processing the pleated cotton type 10 lobes is related to the direction of the force applied to the fabric. When the lobes of the pleated cotton type 10 are processed, the contour direction of the lobes influences the stress direction of the fabric under the condition that environmental factors (such as equipment installation positions) are not changed. Therefore, when designing the lobe profile of the pleated cotton pattern 10 or arranging the processing equipment, the lobe profile of the pleated cotton pattern 10 to be processed should be avoided to be perpendicular or nearly perpendicular to the fabric feeding moving direction, so as to reduce the frequency of wire jumping or wire releasing and ensure the production efficiency.

It should be noted that "in line" as described above includes the same direction or opposite directions; "identical" includes substantially identical and approximately identical.

In other embodiments, the profile of the first lobe 11 may also exhibit other structural symmetry shapes, such as a diamond shape, a fan shape, and the like.

Referring to fig. 6, another embodiment of the present invention discloses a fabric having a pleated cotton pattern 10, wherein the pleated cotton pattern 10 is formed by the above pleated cotton pattern processing method, and each pair of lobes has a sewing thread passing through the center of the pattern, so that there is no running gap 100 in the center of the pleated cotton pattern 10, and the lobes of the pleated cotton pattern 10 are tightly combined, thereby providing a more beautiful pattern and a stronger three-dimensional sense.

In some embodiments, the facing comprises at least one of cloth, rolled cotton, resin cotton, or non-woven fabric.

As one of the embodiments, the fabric includes cloth, roll cotton, resin cotton, and non-woven fabric. Specifically, the fabric of the embodiment has multiple layers, the supporting force and/or the bounce force of the needle of the cotton pleating machine when passing through the fabric are/is large, and the traditional cotton pleating type processing method is easy to cause the jumping. In the embodiment, the sewing and routing direction can be approximately consistent with the fabric feeding and moving direction, the fabric is not easy to loosen or wrinkle, the probability of wire jumping or wire falling can be effectively reduced, and therefore the production efficiency of the fabric is guaranteed.

In a further embodiment, the fabric comprises a cloth, and the cloth is a knitted cloth. Specifically, the cloth enters the pleating cotton machine along the fabric feeding moving direction, the cloth is subjected to stretching force in the fabric feeding moving direction, the needle head moving direction of the pleating cotton machine moves along the fabric feeding moving direction, and the needle head of the pleating cotton machine adopts the processing method provided by the embodiment of the invention, so that the direction of the stretching force applied to the fabric is consistent with the fabric feeding moving direction, the fabric is tensioned and kept in a flat state, and loosening or deformation and wrinkling are not easy to generate, so that the bad conditions such as jumping or thread falling can be effectively avoided, and the production efficiency is ensured.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. Furthermore, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

Claims

1. A pleated cotton pattern processing method is characterized by comprising the following steps:

processing a pleat cotton pattern (10) on a fabric, wherein the pleat cotton pattern (10) comprises a plurality of lobes, the number of the lobes is 2n, n is more than or equal to 2, n is an integer, the lobes are arranged in pairs, and each pair of lobes are arranged along opposite angles;

continuously processing the needle head of the cotton pleating machine by taking the pattern center as a wiring starting point, returning the needle head of the cotton pleating machine to the pattern center after processing one pair of lobes each time, and processing the other pair of lobes;

in the process of processing a pair of lobes, after one lobe is processed, a tucking cotton machine needle head drives a sewing line to pass through the center of the flower pattern, and then the other lobe is processed.

2. The pleated cotton type process of claim 1, characterized in that n is 2, the number of lobes of the pleated cotton pattern (10) is 4, the lobes include a first lobe (11), a second lobe (12), a third lobe (13), and a fourth lobe (14), the first lobe (11) and the third lobe (13) are centrosymmetric with respect to the pattern center, and the second lobe (12) and the fourth lobe (14) are centrosymmetric with respect to the pattern center.

3. The gathered cotton type processing method according to claim 2, wherein said first lobes (11) and said second lobes (12) are symmetrical with respect to an axis of symmetry, and said axis of symmetry is parallel to a feeding moving direction of said web.

4. The pleated cotton-type processing method according to claim 2 or 3, characterized in that the profile of the first lobe (11) comprises arcs or straight segments.

5. The pleated cotton-type processing method according to claim 4, characterized in that the profile of the first lobe (11) comprises a first arc (111) and a second arc (112), the profile of the third lobe (13) comprises a fifth arc (131) and a sixth arc (132), the first arc (111) and the sixth arc (132) are symmetrical about the center of the flower, the second arc (112) and the fifth arc (131) are symmetrical about the center of the flower, and the stitches of the cotton gin needle are continuously routed in the order of the first arc (111), the second arc (112), the sixth arc (132) and the fifth arc (131).

6. The pleated cotton-type process of claim 4 characterized in that the profile of the second lobe (12) includes a third arc (121) and a fourth arc (122), the profile of the fourth lobe (14) includes a seventh arc (141) and an eighth arc (142), the third arc (121) and the eighth arc (142) are symmetric about the center of the flower pattern, the fourth arc (122) and the seventh arc (141) are symmetric about the center of the flower pattern, and the stitches of the cotton picker tip are routed in the order of the center of the flower pattern, the third arc (121), the fourth arc (122), the seventh arc (141), and the eighth arc (142).

7. The gathered cotton type processing method as claimed in claim 1, wherein the sewing thread of said gathering cotton machine is a sewing nylon thread.

8. A fabric having said gatherable cottonrose (10), wherein said gatherable cottonrose (10) is formed by the gatherable cottonrose forming method of any of claims 1 to 7, and wherein a stitching thread passes through the pattern center in each pair of lobes such that there is no running gap (100) in the pattern center of said gatherable cottonrose (10).

9. A fabric according to claim 8, wherein the fabric comprises at least one of a cloth, a roll of cotton, a resin cotton or a non-woven fabric.

10. A fabric according to claim 8 or 9, wherein the fabric comprises a cloth material, and the cloth material is a knitted cloth material.