Tearable cloth

A cloth with heated and melted separation portions addresses the challenge of tearing difficulty by enabling easy separation into units, enhancing user convenience and storage, with ultrasonic heating and compression techniques.

US20260193820A1Pending Publication Date: 2026-07-09ROEMAR INC +1

Patent Information

Authority / Receiving Office
US · United States
Patent Type
Applications(United States)
Current Assignee / Owner
ROEMAR INC
Filing Date
2026-02-26
Publication Date
2026-07-09

AI Technical Summary

Technical Problem

Existing cloths made from polyester fiber textiles are difficult to tear, leading to complex production and packaging processes for manufacturers and inconvenient use for users.

Method used

The cloth is designed with separation portions formed by heating and melting meltable material to reduce tear strength, allowing easy tearing into independent units, facilitated by ultrasonic heating and compression, with optional recesses or grooves to enhance brittleness and stress concentration.

Benefits of technology

Enables easy separation of cloth units by tearing, improving user convenience and facilitating centralized storage, while maintaining fabric integrity and preventing fraying.

✦ Generated by Eureka AI based on patent content.

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Abstract

A continuous cloth comprising a meltable material comprises one or more cloth units having separation portions therebetween, wherein cloth material of the separation portions has been hot melted, facilitating separation of adjacent cloth units at the respective separation portion therebetween.
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Description

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application claims benefit under 35 U.S.C. § 119(a)-(d) to Chinese Patent Application no. 202220664123.5 filed Mar. 24, 2022, which is hereby incorporated by reference in its entirety as part of the present disclosure.FIELD OF THE INVENTION

[0002] The invention relates to a cloth, and in particular, to a continuous cloth that has one more separation portions thereon. Pieces of the cloth can be separated from the continuous material by tearing along the separation portions.BACKGROUND

[0003] Cloths and towels are widely used for drying, cleaning, wiping and washing, etc. A common material used in cloths is a polyester fiber textile material. Such cloths can include a base layer and a looped pile or terry on at least one side of the base layer. To make such cloths, polyester yarns and / or polyester-polyamide yarns are woven into a greige cloth by a warp weaving or weft weaving process, and the fabric is dyed.

[0004] Such fiber fabrics are difficult to tear by a user. Thus, to produce towels or cloths, a manufacturer can produce a large continuous cloth and then cut individual pieces out of the cloth, and then shape them into the towel cloth, wiping cloth, mop cloth, etc. to be used by a user. To package the cloths, they typically must first be stacked to be placed into the packaging.

[0005] For the manufacturer, the above production and packaging methods are complex and the production cost is high. For the user, the product is not always convenient to use.SUMMARY

[0006] In view of the inconvenience of the above-discussed cloths with respect to production and packaging as well as a user's use, the inventors have invented a cloth formed with separation portions, the material of which has been heated and melted, e.g., forming molten masses, to decrease the tear strength of the separation portions relative to adjacent material to facilitate tearing by a user. Accordingly, independent single pieces of the cloth can be separated by tearing along the separation portions. In order to facilitate storage and use of the cloth, it may be rolled into a roll.

[0007] In at least some embodiments, the material in the separation portions is not broken through a thickness of the cloth. In other embodiments, the separation portions are formed by heating, melting and compressing the meltable material of the separation portions, which may comprise, for example, a polyester or polyester blend material. In at least some of these embodiments, the cloth comprises a base layer woven from yarns and a terry layer located on one or both sides of the base layer, and the separation portions are formed by heating and melting and, where applicable, compressing the base layer and the terry layer. In some embodiments, the heating and melting is performed ultrasonically, e.g., via high frequency ultrasonic.

[0008] In further embodiments, the separation portions define a first thickness that is less than a thickness of cloth material adjacent thereto, and may be less than or equal to the thickness of the base layer. The first thickness may be, for example, about 0.01 mm-about 2 mm. In yet further embodiments, wherein the separation portions define a recess or groove in the cloth relative to cloth material adjacent thereto.

[0009] In at least some of the above-discussed embodiments, the separation portions define one or more cloth units, wherein the separation portions connect adjacent cloth units and / or each cloth unit is separable from the cloth by tearing the cloth at respective separation portions adjacent said each cloth unit. The cloth units in some embodiments define a length of about 5 cm-about 200 cm. The separation portions defining such cloth units may be located at intervals along a length direction of the cloth and may traverse a width of the cloth, and comprise straight, curved, zigzag or bent lines.

[0010] In at least some embodiments, after tearing, a portion of the melted material of torn separation portion remains attached to the adjacent cloth material. This closes or seals the edge and prevents fraying of the cloth material. Similarly, the untorn edges of the cloth may be edge-cut by hot melting to prevent fraying.

[0011] Another aspect includes a method of making a cloth. The method includes forming, in a continuous cloth material formed with meltable material, one or more separation portions, including heating and melting said meltable material to form the separation portions with a tear strength that is less than a tear strength of cloth material adjacent the separation portions, such that the cloth tears more easily at the separation portions than at said cloth material adjacent said separation portions. The heating and melting may be done ultrasonically, such as by using high frequency ultrasonic. In some embodiments, the material at the separation portions is compressed after being heated and melted.

[0012] In additional embodiments, the separation portions are formed so that the material in them not broken through the thickness of the cloth. In further embodiments, the separation portions are formed to have a first thickness that is less than a thickness of cloth material the separation portions, and / or define a recess or groove in the cloth relative to cloth material adjacent thereto. The first thickness may be about 0.01 mm-about 2 mm. In embodiments where the cloth comprises a base layer and a looped pile layer attached to the base layer, the first thickness can be less than or equal to the thickness of the base layer.

[0013] Furthermore, the method may include rolling the cloth into a roll, which may facilitate storage and use of the cloth.

[0014] Compared with previous cloths, the invention has the advantages that the cloth is tearable and dividable into multiple cloth units via the separation portions, where the heating, melting, and, in applicable embodiments, the compressing, makes the material in the separation portions more brittle and less tough, and also damages the connections between the fibers of the base layer and between the terry / loop pile portions and the base layer. In addition, in embodiments in which separation portions are thinner than or define recesses or grooves in the cloth, they form stress notches and concentration that cause the separation portions to more easily break.

[0015] Thus, independent single pieces of cloth can be easily separated by a user by tearing along the separation portions, thus facilitating the user to use the textile cloth according to personalized need, and also facilitating centralized storage of a large number of single pieces of cloth, including in rolled form.

[0016] Other objects and advantages of the present invention will become apparent in view of the following detailed description of the embodiments and the accompanying drawings.BRIEF DESCRIPTION OF THE DRAWINGS

[0017] Embodiments will be described below with reference to the drawings. However, those skilled in the art should appreciate that the drawings are only for the purpose of explaining the described embodiments, and therefore do not limit the scope of the invention or the claims herein. In addition, unless otherwise indicated, the drawings are intended only to conceptually represent the described embodiments, and are not necessarily drawn to scale.

[0018] FIG. 1 is a schematic view of a rolled cloth;

[0019] FIG. 2 is a partial schematic view of the rolled cloth of FIG. 1 during a process of tearing a portion of the cloth from the roll;

[0020] FIG. 3 is a partial sectional view of the cloth of FIG. 1;

[0021] FIG. 4 is a schematic view of a base layer of the cloth of FIG. 1 formed by a warp weaving process; and

[0022] FIG. 5 is a view of a base layer of a cloth formed by a weft weaving process.DETAILED DESCRIPTION

[0023] Embodiments are described below with reference to the drawings. It should be noted that like numerals in separate drawings represent like items. Therefore, once a certain item in a drawing is described, it might not be further defined and explained in the subsequent drawings. In addition, it should be noted that orientations, positions and relationships discussed herein, e.g., terms such as “front”, “rear” and the like, are provided solely to facilitate the description of the respective embodiment, and do not indicate that a particular orientation is required, or that the invention must be configured and / or operated in the particular orientation, and thus should not be construed as limiting the scope of the invention and claims herein.

[0024] FIGS. 1-3 show a continuous cloth “A” that can be torn into pieces. The cloth is formed of a meltable material, such as, for example, a polyester fiber textile cloth. In this embodiment, the cloth “A” comprises a base layer 1 woven from yarns, and a looped pile or terry layer 2 located on both sides of the base layer, though in other embodiments the terry layer 2 is located on only one side of the base layer 1.

[0025] As shown in FIG. 4, the base layer 1 is formed by a warp weaving process contain ring units “a” formed of yarns or threads. The ring units “a” are interlocked. One end of the ring unit of the weft yarn passes through a ring unit of an adjacent weft yarn, and the other end is looped to form a ring unit at a diagonal position. Thus, adjacent ring units are interwoven to be connected.

[0026] In the embodiment depicted in FIG. 5, the base layer 1 is formed by a weft weaving process. In this embodiment, the base layer 1 contains semi-ring units “b” composed of yarns or threads. Here, the woven yarn of the base layer 1 is bent in a wavy shape, forming adjacent semi-ring units “b” alternating in opposite directions located at intervals in the weft. Thus, semi-ring units formed by adjacent weft yarns are interwoven with each other.

[0027] In each embodiment, the interwoven yarns or threads make the base layer 1 tear resistant, thus making the cloth more durable.

[0028] The woven terry units of the terry layer 2 protrude out of the surface of the base layer 1 and are arranged on the surface of the base layer 1 in a matrix-like manner. Each terry woven unit is further interwoven with a ring unit “a” or semi-ring unit “b,” as applicable, of the base layer 1, such that the base layer 1 and the terry layer 2 are bonded, which improves the strength of the cloth while improving its liquid absorption and cleaning ability.

[0029] As shown in FIGS. 1-3, the cloth has multiple separation portions 3 arranged at multiple locations on the cloth “A,” dividing the cloth “A” into a plurality of cloth units “M.” In the illustrated embodiment, the separation portions 3 are located at intervals in the length direction of the roll and traverse the width of the cloth. Other embodiments have further separation portions extending so as to intersect each other to form a grid of cloth units “M.”

[0030] The separation portions 3 are formed by heating, melting and compressing fibers in the base layer 1 and the terry layer 2 at the locations of separation portions 3, which cool to form molten masses of material. It should be understood that the material in the separation portions 3, though it has been melted, is not broken. There is no gap or hole through the thickness of the molten mass of cloth “A” and the separation portion 3 connects adjacent cloth units “M.” The heating of the cloth material, along with compressing it, decreases the toughness and increases the brittleness of the fibers at the locations of the separation portions 3. Further, the connections between the terry units and the base layer 1 at respective positions are damaged. Accordingly, the cloth “A” has decreased strength at the separation portions 3, allowing a user to tear or otherwise separate the cloth at or along a separation portion 3 more easily than tearing the unheated material itself. Thus, the user can remove one or more cloth units “M” from the roll as desired without using a knife or sharp blade. The user can remove a portion from the cloth from the roll in a desired size and shape, for example, based on the size of the object to be cleaned, by selectively tearing separation portions so as to provide such.

[0031] As seen in FIG. 3, the separation portions 3 are thinner than the surrounding unheated cloth material. In at least some embodiments, the thickness of the separation portions 3 is less than or equal to that of the original base layer 1. In the illustrated embodiment, the thin linear molten masses 3 are recessed relative to the surface of the cloth “A.” The decreased thickens and / or recessing provides a stress concentration at the separation potion 3, which further facilitates breaking or tearing the cloth at that location. Such also helps a user visually locate the locations of the separation portions 3.

[0032] In the illustrated embodiment, the separation portion 3 is straight or linear. However, it may alternatively be curved, zigzag or bent. In the illustrated embodiment, the separation portions 3 are located so as to divide the cloth “A” into cloth units “M” of the same size.

[0033] In at least some embodiments, the base layer 1 contains polyester. In some such embodiments, the base layer 1 is pure polyester. In some embodiments, the material of the terry layer 2 is blended polyester comprised of polyester and polyamide. In terms of proportions of the yarns, the blended polyesters may be 80% polyester and 20% polyamide. It may also be 85% polyester and 15% polyamide. In some embodiments, the base layer 1 comprises about 30%-about 32% of the cloth “A,” and the terry layer 2 comprises about 68%-about 70% of the cloth.

[0034] As shown in FIGS. 1-3, the matrix-like arrangement of the terry woven loops or units of the terry layer 2 are arranged in longitudinal lines, and the separation portions 3 are parallel to the longitudinal lines of the terry loops. As shown in FIG. 3, during the heating process, the terry woven units on both sides of the separation portions 3 melt, shrink, fuse and lodge, resulting in the terry layers 2 on both sides of the separation portions 3 gradually become thicker away from the separation portions 3.

[0035] As shown in FIGS. 1-3, the single, removable pieces “M” of textile cloth are formed by dividing the integral cloth “A” with the longitudinal separation portions 3. The width of the single pieces of cloth “M” is consistent with the width of the cloth. The length of the single pieces of cloth “M” can be, for example, about 5 cm-about 200 cm.

[0036] In the illustrated embodiment, the terry layer 2 is located on both sides of the base layer 1, respectively. The base layer 1 and the two terry layers 2 are thus heated, molten and compressed to form the separation portions 3. The separation portions 3 are located at the mid-line of the thickness of the cloth to form a recessed line or groove on both surfaces of the cloth.

[0037] In some embodiments, the separation portions or molten masses 3 have a thickness of about 0.01 mm-about 2 mm and a width of about 1 mm-about 5 mm. These thickness and widths both enable the separation portions 3 to connect the textile cloth units “M” on both sides thereof, so as to maintain the integrity of the cloth “A” prior to tearing, and provide that the connection strength is within a range that the separation portions 3 can be broken out by the user by tearing, so as to facilitate the user to separate an independent single piece of cloth “M” from the roll. Furthermore, the width range of about 1 mm-about 5 mm is such that it makes the separation portions 3 visible while the fabric is not wasted.

[0038] In addition, both side edges of the continuous polyester fiber textile cloth may be formed by edge-cutting via hot melting to prevent fraying of the yarns or threads. Further, upon tearing of a separation portion 3 to separate a cloth unit “M,” part of the separation portion 3, which will not fray, remains at the newly-formed edge of the cloth “A,” and functions to seal that edge and prevent fraying, as exemplarily-shown in FIG. 2.

[0039] In rolled form, the cloth “A” facilitates storage and use of the cloth. Of course, the cloth “A” may be in other configurations, such as, for example, in a folded form.

[0040] As shown in FIG. 1, the rolled cloth “A” includes an inner core 4 and the cloth “A” rolled onto the inner core 4. The inner core 4 may be, for example, a cylindrical paper core.

[0041] It should be noted that at the outer edge of the cloth formed by tearing the separation portions 3, the material is hard, thin and has a rough edge, while the outer surface of the polyester fiber textile cloth is rough due to the terry layer 2. This outer edge may provide a large friction force with the outer surface of the unheated cloth, and the edge may even prick into or catch on the terry layer 2, so that the edge can attach or adhere to the outer surface of the cloth “A,” allowing the rolled cloth to maintain a stable rolled shape, without falling off or loosening.

[0042] The above describes specific examples of the invention. The description of such embodiments should only be used to help understand the invention. That is, those skilled in the art should appreciate that the descriptions of embodiments herein are only descriptive and exemplary, and should not be interpreted as limiting the scope of the invention or the claims herein. It should be noted that several improvements and modifications can be made to the disclosed embodiments by those of ordinary skill in the technical art without departing from the principles of the invention, and such that these improvements and modifications fall within the scope thereof.

Claims

1. -43. (canceled)44. A cloth comprising:a continuous cloth material including woven fibers of meltable material and having a length, upper and lower sides, a thickness measured from the upper side to the lower side, and a width extending between first and second side edges, the cloth material including a woven base layer and a first loop layer on an upper side of the base layer and a tear strength; andone or more separation portions each formed of heated and melted cloth material extending across the width of the cloth material, each separation portion having a thickness measured in a same direction as the thickness of the cloth material that is less than the thickness of the cloth material and a tear strength that is less than the tear strength of the cloth material, each separation portion being tearable by a user to separate a piece of the cloth material from a remainder of the cloth material.

45. The cloth of claim 44, wherein each separation portion extends unbroken through the thicknesses of the separation portion and the cloth material across the width of the cloth material.

46. The cloth of claim 44, wherein adjacent unmelted portions of cloth material extend up to and are attached to opposite sides of each separation portion.

47. The cloth of claim 46, wherein each separation portion is configured to have respective parts of the heated and melted cloth material of the separation portion remain attached to the adjacent unmelted portions of the cloth material to prevent fraying of the adjacent unmelted cloth material after tearing of the separation portion.

48. The cloth of claim 44, wherein each of the one or more separation portions includes a line of melted and damaged but unbroken fibers of the meltable material.

49. The cloth of claim 44, wherein each of the one or more separation portions includes a line of melted and compressed fibers of the meltable material having the thickness that is less than the thickness of the cloth material.

50. The cloth of claim 49, wherein the line of melted and compressed fibers of the meltable material has the thickness that is less than the thickness of the cloth material substantially uniformly along a length of the line.

51. The cloth of claim 44, wherein the cloth material comprises a second loop layer on the lower side of the base layer.

52. The cloth of claim 44, wherein each of the one or more separation portions includes heated, melted and compressed cloth material having fibers with decreased toughness and increased brittleness in relation to fibers of the cloth material.

53. The cloth according to claim 44, wherein the meltable material includes a polyester or polyester blend.

54. The cloth of claim 44, wherein fibers of the heated and melted cloth material at each of the one or more separation portions have decreased toughness and increased brittleness.

55. The cloth of claim 44, wherein each of the one or more separation portions is formed to be tearable without cutting any portion of the separation portion or cloth material.

56. The cloth of claim 44, comprising intersecting separation portions that intersect with at least one of the one or more separation portions.

57. The cloth of claim 44, wherein each of the one or more separation portions is configured to form a torn edge after tearing to frictionally engage with the upper or lower surface of the cloth material to adhere the torn edge to the upper or lower surface of the cloth material.

58. The cloth of claim 44, wherein the cloth material is rolled into a roll and the torn edge of a separation portion is frictionally engaged to adhere to an outer surface of the roll defined by the upper or lower surface of the cloth material.

59. A cloth comprising:a continuous cloth material including woven fibers of meltable material and having a length, upper and lower sides, a thickness measured from the upper side to the lower side, a width extending between first and second side edges and a tear strength; andone or more separation portions each formed of heated and melted cloth material extending across the width of the cloth material, each separation portion having a thickness measured in a same direction as the thickness of the cloth material that is less than the thickness of the cloth material and a tear strength that is less than the tear strength of the cloth material, each separation portion being tearable by a user to separate a piece of the cloth material from a remainder of the cloth material, and each separation portion being formed to be tearable without cutting any portion of the separation portion or cloth material.

60. The cloth of claim 59, wherein each separation portion extends unbroken through the thicknesses of the separation portion and the cloth material across the width of the cloth material.

61. The cloth of claim 59, wherein adjacent unmelted portions of cloth material extend up to and are attached to opposite sides of each separation portion.

62. The cloth of claim 61, wherein each separation portion is configured to have respective parts of the heated and melted cloth material of the separation portion remain attached to the adjacent unmelted portions of the cloth material to prevent fraying of the adjacent unmelted cloth material after tearing of the separation portion.

63. The cloth of claim 59, wherein each of the one or more separation portions is configured to form a torn edge after tearing to frictionally engage with the upper or lower surface of the cloth material to adhere the torn edge to the upper or lower surface of the cloth material.

64. The cloth of claim 63, wherein the cloth material is rolled into a roll and the torn edge of a separation portion is frictionally engaged to adhere to an outer surface of the roll defined by the upper or lower surface of the cloth material.

65. The cloth of claim 59, wherein each of the one or more separation portions includes a line of melted and damaged but unbroken fibers of the meltable material.

66. The cloth of claim 59, wherein each of the one or more separation portions includes a line of melted and compressed fibers of the meltable material having the thickness that is less than the thickness of the cloth material.

67. The cloth of claim 66, wherein the line of melted and compressed fibers of the meltable material has the thickness that is less than the thickness of the cloth material substantially uniformly along a length of the line.

68. The cloth of claim 59, wherein the cloth material comprises a woven base layer and first and second loop layers on upper and lower sides of the base layer, respectively.

69. The cloth of claim 59, wherein each of the one or more separation portions includes heated, melted and compressed cloth material having fibers with decreased toughness and increased brittleness in relation to fibers of the cloth material.

70. The cloth according to claim 59, wherein the meltable material includes a polyester or polyester blend.

71. The cloth of claim 59, wherein fibers of the heated and melted cloth material at each of the one or more separation portions have decreased toughness and increased brittleness.

72. The cloth of claim 59, comprising intersecting separation portions that intersect with at least one of the one or more separation portions.

73. A cloth comprising:a continuous cloth material including woven fibers of meltable material and having a length, upper and lower sides, a thickness measured from the upper side to the lower side, a width extending between first and second side edges and a tear strength, the continuous cloth material being formed into a roll such that the lower side of the cloth material defines an outer surface of the roll; andone or more separation portions each formed of heated and melted cloth material extending across the width of the cloth material, each separation portion having a thickness measured in a same direction as the thickness of the cloth material that is less than the thickness of the cloth material and a tear strength that is less than the tear strength of the cloth material, each separation portion being tearable by a user to separate a piece of the cloth material from a remainder of the cloth material,wherein each of the one or more separation portions is configured to form a torn edge after tearing to frictionally engage with the outer surface of the roll of the cloth material to adhere the torn edge to the outer surface of the roll.

74. The cloth of claim 73, wherein each separation portion is formed to be tearable without cutting any portion of the separation portion or cloth material.

75. The cloth of claim 73, wherein the cloth material comprises a woven base layer and first and second loop layers on upper and lower sides of the base layer, respectively.

76. The cloth of claim 73, wherein each separation portion extends unbroken through the thicknesses of the separation portion and the cloth material across the width of the cloth material.