KR20160122559A - Fabrics, method of manufacturing the same and shading structure using the same - Google Patents

Abstract

The present invention relates to a fabric, a method for producing a fabric, and a light-shielding structure using the fabric. According to the present invention, the fabric comprises: a plurality of slat parts having a high density part and a low density part; and a strip part connecting intervals between the plurality of slat parts. The strip part includes a plurality of bridge parts connecting an intervals with the neighboring high density part. The bridge part has less tensile strength than a portion where the bridge part is connected between the strip part and the high density part.

Description

TECHNICAL FIELD [0001] The present invention relates to a fabric, a fabrication method of the fabric, and a light-shielding structure using the fabric. [0002] FABRICS, METHOD OF MANUFACTURING THE SAME AND SHADING STRUCTURE USING THE SAME,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present disclosure relates to a textile fabric, and more specifically, to a fabric that can be used for a curtain, a blind, a vertical, etc., a manufacturing method thereof, and a light shielding structure using the fabric.

In many cases, shading structures such as curtains, blinds, and verticals are installed in the windows or doors of buildings such as apartments, houses, and offices.

On the one hand, these structures are required to be able to supply refreshing light and air to residents with excellent mining and air permeability, and on the other hand to be able to create a cozy residential environment by blocking sunlight and external gaze.

A light-shielding mechanism capable of selectively producing a light-shielding environment and a lightening environment has been proposed in response to this demand. For example, by arranging a light blind paper in the form of a mesh in front and behind, connecting opaque light-shielding blind paper between them at regular intervals, and then rotating the light-shielding blind paper by pulling the operation string or rotating the operation rod, There is known a blind mechanism which adopts a structure for switching to a light-shielding state for covering a blind paper or a light-state for reversing it.

However, in the light-shielding structure having such a structure, a three-dimensional structure in which a light-shielding blind paper is connected between two front and back light blindfolds is adopted, and there is a problem in that the structure is complicated and the manufacturing process and cost are increased.

In addition, when installed in a door or a passageway through which a resident passes, an increase in the number of passengers increases the risk of breakage. In addition, each time the user moves, the user is forced to sideways, have.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an improved fabric, a manufacturing method thereof, and a light-shielding structure using the fabric.

The fabric according to the present disclosure includes a plurality of slat portions having a high density portion and a low density portion and a strip portion connecting the plurality of slat portions, wherein the strip portion includes a plurality of leg portions connecting between the adjacent high density portions, And the leg portion has a smaller tensile strength than the connecting portion of the strip portion and the high density portion to which the leg portion is connected.

According to the above-described configuration, when a curtain or a blind is installed on a window or a door of a building such as an apartment, a house, or an office, for example, by cutting the leg portion and removing the strip portion, Or the slats of a specific stage may be separated and used.

1 is a plan view showing the overall configuration of a fabric 100 in accordance with one embodiment of the present disclosure.
2 is an enlarged view of a boundary portion between the low density portion 20 and the high density portion 30 in the raw fabric 100 shown in FIG.
3 is an enlarged view of the strip portion 40 of the raw fabric 100 shown in Fig.
4 is an enlarged view showing a state in which the strip portion 40 is partially separated from the one high density portion 30. FIG.
Fig. 5 is an enlarged view of the ear portion 50 of the raw fabric 100 of Fig. 1 enlarged.
6 (a) is a schematic view schematically showing an embodiment of a basic structure constituting the strip portion 40 according to the present disclosure.
6 (b) is a schematic view schematically showing an embodiment of the braid structure of the strip portion 40 according to the present disclosure.
8 is a perspective view showing a partially lighted state of the light shielding structure 200 of FIG.

Hereinafter, the configuration of an embodiment according to the present disclosure will be described with reference to the accompanying drawings. The accompanying drawings are not necessarily drawn to scale, and some or all of the configurations may be enlarged, exaggerated, simplified, or omitted for convenience of explanation. In addition, the following description is provided to assist in understanding the present disclosure, and the present disclosure is not limited to the embodiments described below.

First, the fabric 100 according to one embodiment of the present disclosure will be described.

1 is a plan view showing the overall configuration of a fabric 100 in accordance with one embodiment of the present disclosure.

The fabric 100 according to the present embodiment may be formed from a variety of materials such as regenerated fibers represented by rayon, natural fibers typified by cotton, semi-synthetic fibers such as acetate, polyester synthetic fibers typified by polyethylene terephthalate, aliphatic polyamides represented by nylon Synthetic fibers or blended fibers thereof may be used as the yarn.

In this embodiment, the fabric 100 is described as an example of a knitted fabric, particularly a raschel fabric, but may be made of fabric, made of nonwoven fabric or other flexible fibers or resin, or the like. Further, the fabric 100 may be partially or wholly subjected to processing such as dyeing or patterning, if necessary.

Referring to FIG. 1, a fabric 100 according to the present embodiment includes a slat 10 and a strip 40. Further, the fabric 100 may further include an ear portion 50.

The slat portion 10 is a main portion that occupies most of the fabric 100. For example, when used as a curtain paper, the slat portion 10 is a main portion of the fabric 100. The slat portion 10 shields or blocks light, It is the part that takes charge of function or role.

The slat section (10) includes a low density section (20) and a high density section (30). Here, "density" means the density of the yarn or the density of the fiber texture. That is, the term "low density" means a case where yarn density or fiber density is relatively low, and "high density " means that yarn density or fiber density is relatively high.

2 is an enlarged view of a boundary portion between the low density portion 20 and the high density portion 30 in the raw fabric 100 shown in FIG.

Referring to Fig. 2, the low density portion 20 is, for example, a portion where yarns constituting the fabric are sparsely braided at intervals in the radial direction and the upward direction. A plurality of substantially square through holes 21 are formed between the braided yarns to form a net-like fibrous structure. The through hole 21 is a portion through which light or air passes, and may be formed in other shapes such as a circle, a diamond, a hexagon, and an octagon as well as a square.

The low-density portion 20 is a portion having excellent mining and light-shielding properties, and therefore can be used as a mining portion or a venting portion when used as a curtain. Further, the low-density portion 20 is excellent in elasticity and flexibility, and thus has a function of imparting a restoring force to the fabric.

The low-density portion 20 is preferably formed of a single-layer fiber structure that forms a thin portion of the fabric, but may have a multi-layer structure in which a plurality of layers are stacked in accordance with a desired degree of lightness, air permeability, and the like.

The low density portion 20 may have a pattern portion 22 in which a part of the through hole 21 is filled with the yarns to form a specific pattern. The pattern portion 22 can contribute to the improvement of aesthetics during mining by forming various geometric patterns such as a V-shaped pattern, a diamond pattern, and a floral pattern.

Referring to FIG. 2, the high-density portion 30 is, for example, a portion in which the yarns constituting the fabric are densely knitted together. A dense fiber structure is formed between the braided yarns with almost no gap. Since the high-density portion 30 hardly passes light or air, it can be used, for example, as a shielding portion that shields a light-shielding portion, a line of sight, or the outside air when used as a curtain. The high-density portion 30 is a portion where breakage or breakage does not easily occur, thereby imparting rigidity and toughness to the fabric.

The high-density portion 30 forms a thick portion of the fabric. Though the thick fiber can be used to form the fiber structure of a single layer, from the viewpoint of shielding property and rigidity, it is preferable that a plurality of fiber layers are laminated to form a multi- good.

The high-density portion 30 may further include a pattern portion in which a pattern layer of a specific pattern is formed on the ground tissue layer. The pattern part can form various geometric patterns such as V-shaped pattern, diamond pattern, and floral pattern.

1, the high density portion 30 is disposed on both sides of the low density portion 20, and is connected to both side ends of the low density portion 20 to be integrally fixed. That is, in the slat portion 10 according to the present embodiment, two high density portions 30 and one low density portion 20 disposed therebetween are integrally formed to form one end. Although FIG. 1 shows two slat sections 10, the fabric 100 may include more than three slat sections 10. Of course, each of the low density portion 20 and the high density portion 30 may include a plurality of different dough or a plurality of distinct portions.

The dimensions such as the length and width of the low-density portion 20 and the high-density portion 30 can be appropriately set according to the purpose of use of the fabric 100, the installation site, and the like. For example, the length of the high-density portion 30 is preferably the same as that of the low-density portion 20, but the present invention is not limited to this, and the length of either one may be longer. The width of the low density portion 20 is preferably larger than the width of the high density portion 30 but is not limited thereto. For example, the widths of the low density portion 20 and the high density portion 30 may be substantially the same . That is, the dimensions of the low density portion 20 and the high density portion 30 can be variously set as needed.

3 is an enlarged view of the strip portion 40 of the raw fabric 100 shown in Fig.

3, the strip portion 40 is a connecting portion for connecting the side ends of two adjacent high density portions 30. The strip portion 40 is formed by peeling off the strip portion 40 along the longitudinal direction of the raw fabric 100, And the slat portions 10 at both ends connected to each other by the portion 30 can be separated.

That is, the fabric 100 according to the present embodiment is produced and supplied in a state where the strip portion 40 is connected to the slat portions 10 at both ends when it is produced in a factory. However, when the fabric 100 is installed in a curtain or a blind A desired number of slat portions 10 may be formed by leaving or removing the strip portion 40 as it is according to a desired use environment when a curtain or a blind is installed on a window or a door of a building such as an apartment, Or the slats 10 of a specific stage may be separated and used.

Referring to FIG. 3, the strip portion 40 is a braided yarn such that the yarns are densely intertwined with each other in four directions. The yarns are braided more rigidly than the high density portion 30. In addition, the strip portion 40 can be manufactured using a thicker yarn than the high density portion 30. [ When the strip portion 40 is torn along the longitudinal direction of the raw fabric 100, the strip portion 40 is not cut off in the middle and the leg portion 41 described later is cut off from the strip portion 40 It is possible to provide an excellent toughness property that is firmly fixed and does not break off easily.

The strip portion 40 may have a thickness or a width so as to be detachable at a time along the longitudinal direction of the fabric 100, but the present invention is not limited thereto.

The strip portion 40 has a leg portion 41 connected to a side end 31 of the high density portion 30. [ Referring to FIG. 3, the leg portions 41 are connected to the side ends of the high density portion 30 by two connecting threads 42 per one course in the upward direction of the high density portion 30. One strand is a strand entering the side edge 31 of the high density portion 30 and the other strand is a strand coming from the side edge 31 of the high density portion 30. [ That is, when one strand of the connecting yarn 42 enters the side end 31 of the high density portion 30 and is caught by the yarn or fiber structure at the side end 31 of the high density portion 30, (30). The connecting yarn 42 protrudes from one side of the strip portion 40 and is connected to one course of one high density portion 30 and then protrudes from the other side of the strip portion 40 through the strip portion 40, The strip portion 40 is formed on the right and left high density portions 30 along the longitudinal direction of the raw fabric 100 by repeating the cross connecting structure connected to one course of the other high density portion 30 located on one course It is connecting in turn. Accordingly, the leg portions 41 are connected to the strip portion 40 and the left high-density portion 30 one by one in the upward direction, and correspond to the courses not connected to the high-density portion 30 on the left side A structure is formed in which the strip portion 40 and the right high density portion 30 are connected one by one every one course in the upward direction.

The leg portions 41 are preferably formed in such a manner that they are connected one by one every other course in the upward direction. However, the present invention is not limited thereto. For example, the interval may be further enlarged or narrowed. However, if the distance between the legs 41 is too large, the legs 41 may easily break during the manufacturing process of the fabric 100. On the contrary, if the spacing between the legs 41 is too narrow, There is a fear that the strip portion 40 is not easily separated or the yarn or fiber structure of the high density portion 30 is broken. Therefore, it is preferable to arrange the leg portions 41 at appropriate intervals at which such a fear does not occur.

It is preferable that the connecting yarn 42 forming the leg portion 41 has a smaller tensile strength than the yarn constituting the strip portion 40 or the yarn constituting the side end of the high density portion 30. [ This is to prevent the connecting yarn 42 from being broken first without damaging the connecting portion of the strip portion 40 or the high density portion 30 when the strip portion 40 is detached from the raw fabric 100. In the present embodiment, the single leg strand 42 is used as the leg portion 41, but the present invention is not limited thereto. The tensile strength is smaller than that of the portion connected to the strip portion 40 or the high density portion 30 If it is broken, several strands of strands may be used. The length of the leg portion 41, that is, the length of the connecting yarn 42 between the strip portion 40 and the high density portion 30 is substantially the same as the width of the strip portion 40, but is not limited thereto.

Because of the presence of the legs 41, the fabric 100 can be easily folded at the legs 41 on both sides with the strips 40 therebetween. Therefore, even when the fabric 100 is folded and stored or transported, there is no fear that the folded state will remain and the finishing state is not affected.

4 is an enlarged view showing a state in which the strip portion 40 is partially separated from the one high density portion 30. FIG.

Referring to FIG. 4, when the strip portion 40 is pulled out while the one high density portion 30 is firmly fixed, the leg portion 41 connected to the high density portion 30 is cut off, And is separated from the high density portion 30. At this time, the connecting yarn 42 of the leg portion 41 is fixed more tightly to the strip portion 40 than the high density portion 30, so that the connecting yarn 42 is joined together with the strip portion 40 And the connecting yarn 41 is separated from the side edge of the high density portion 30. As a result, Therefore, since the connecting yarn 42 is not left on the side edge of the high density portion 30, the end portion of the high density portion 30 can be kept smoothly closed.

The side edge of the other high density portion 30 is also connected to the connecting yarn 42 in the same manner. The connecting yarn 42 is removed together with the strip portion 40 and the both ends of the connecting yarn 42 are removed together with the strip portion 40. [ But does not remain on the side edge of the high density portion 30.

Of course, the strip portion 40 is not limited to the structure of the above-described embodiment. For example, the strip portion 40 may be formed of a fissured portion such as the high density portion 30, or may be formed of another raw paper. Even in this case, the connecting yarn 42 is fixed more firmly to the strip portion 40 by the manufacturing method according to the present disclosure to be described later. Therefore, the connecting yarn 42 is provided on the side of the high density portion 30 on both sides It does not remain.

Fig. 5 is an enlarged view of the ear portion 50 of the raw fabric 100 of Fig. 1 enlarged.

The ear portion 50 corresponds to the side edge of the fabric 100 and is a portion to which the fastener of the transfer device for fixing and transporting the fabric 100 is mounted. However, in the fabric 100 according to the present disclosure, when the fabric is produced and supplied from the factory, the ear portion 50 may be left without being separated from the final fabric, Do. Since the ear 100 according to the present disclosure has the ear portion 50 connected to the slat portion 10 through the ear strip portion 52, the ear portion 50 can be easily removed by removing the ear strip portion 52 It is because.

The ear portion 50 may be provided on both edges at intervals of three or four stages of slat portions 10 but is not limited thereto and may include a fabric 100 including three or less or four or more slat portions 10, May be provided on both edges. However, if the number of the ear portions 50 is excessively large, the cost increases due to the abandonment of the fabric 100, and if the ear portions 50 are too small, there is a problem that the conveyance of the fabric 100 is not smooth, Therefore, it is necessary to set the number and position of the ear portions 50 in consideration of the width and precision of the fabric 100 produced at one time.

Referring to FIG. 5, the ear portion 50 is a Fuji portion in which the yarns constituting the fabric are densely knitted together. The fuzzy portion may be formed of the same fiber structure as that of the high density portion 30, but is not limited thereto. The fuzzy portion may have a rigidity enough to smoothly transfer the fabric 100 by attaching the fastener of the transfer device So long as it is a fiber structure having toughness.

The ear portion 50 includes an ear strip portion 51 connected to a side end of the high density portion 30 of the slat portion 10. The configuration of the ear strip portion 51 is substantially the same as that of the strip portion 40 but differs from that of the strip portion 40 in that the leg portion 52 protrudes only on one side. That is, the leg portion 52 connected to the adjacent high density portion 30 is provided on one side of the ear strip portion 51, but the leg portion 52 is not formed on the other side of the ear strip portion 51, And is firmly connected to the rear portion of the ear portion 50.

The structure of the leg portion 52 of the ear strip portion 51 is the same as that of the leg portion 41 of the strip portion 40 but is not limited thereto. For example, the ear portion 50 may be detached from the fabric 100 The leg portion 41 of the strip portion 40 may have a configuration different from that of the leg portion 41 provided that the tensile strength is smaller than the portion connected to the ear strip portion 51 or the high density portion 30. [

The proximal end portion of the connecting yarn 53 is firmly fixed to the ear strip portion 52 and the distal end portion of the connecting yarn 54 is fixed to the high density portion 30 even in the leg portion 52 of the ear strip portion 51. [ Respectively. Therefore, when the ear portion 50 is pulled out and pulled out, the connecting yarn 53 is cut off from the leg portion 52 connected to the high density portion 30, and the connecting yarn 53 is attached to the ear strip portion 51 The ear portion 50 is separated from the slat portion 10 of the fabric 100. Therefore, the connecting yarn 53 is not left on the end of the high density portion 30 of the slat portion 10, so that the state of being smoothly finished can be maintained.

Referring again to Fig. 5, the ear portion 50 may further include a connection portion 54 between the fingers and the ear strip portion 51. [ The connecting portion 54 is formed of a low density fiber structure having elasticity and flexibility in order to prevent the ear strip portion 51 from being cut off by an external force applied to the ear portion 50 at the time of feeding the raw fabric 100, ≪ / RTI > The connecting portion 54 may have a pattern portion shape that is braided in a square or rectangular pattern of a bottom plate shape, but it is not limited thereto, and may be formed in other shapes such as circular, diamond, hexagonal, and octagonal.

As described above, the raw fabric 100 according to the present disclosure includes the strip portion 40 connected to the leg portion 41, so that the slat portion 10 of each end can be easily removed by a simple operation of removing the strip portion 40 It can be easily separated. Since the ear portion 50 is connected by the ear strip portion 51, the ear portion 50 can be easily removed only by pulling the ear portion 50 and pulling the ear strip portion 51 apart. Therefore, a separate step of cutting the slat portion 10 or the ear portion 50 at each end is not necessary, and the number of operations and cost can be reduced.

In the present embodiment, the cloth 100 is described as a knitted fabric, in particular, Rassel cloth. However, the cloth 100 may be partially or entirely woven. For example, the low density portion 20, the high density portion 30, the strip portion 40, the ear portion 50, etc. of the fabric 100 may be a fabric.

Hereinafter, a method of manufacturing the fabric 100 according to an embodiment of the present disclosure will be described.

The low density portion 20 and the high density portion 30 of the fabric 100 may be manufactured according to a general knitting method, and a detailed description thereof will be omitted. Hereinafter, the method of knitting the strip portion 40 and the ear portion 50 will be mainly described.

Fig. 6 (a) is a schematic view schematically showing one embodiment of the basic structure constituting the strip portion 40 according to the present disclosure, and Fig. 6 (b) is a schematic view showing the structure of the braided structure of the strip portion 40 according to the present disclosure 1 is a schematic diagram schematically showing one embodiment. 6 (b), the ordinate axis indicates the course direction (upper direction) and the abscissa axis indicates the well direction (radial direction).

The strip portion 40 can be braided as shown in Fig. 6 (b) by, for example, weaving two thick thick yarns so as to intertwine with each other in a manner similar to Fig. 6 (a). The leg portion 41 can be connected to the side end of the high density portion 30 while binding the thin and thin two connecting yarns 42 to be tightly entangled with the strip portion 40 in the same manner as in Fig. have. Of course, the type, number, thickness, etc. of the yarn can be selected variously according to the function.

6 (b), one strand of the connecting yarn 42 protrudes from one side (the right side of Fig. 6 (b)) of the strip portion 40, And then connected to one of the high-density portions 30 and then returned to the strip portion 40 to be bound one or more times, while the other strands of the connecting yarns 42 move in the upward direction After being bonded to the strip portion 40 at least once, the strip portion 40 is protruded to the other side (left side in FIG. 6B) of the strip portion 40 and connected to the other high density portion 30, ), And binding is performed one or more times. In this case, each of the two strands 42 is bound to the strip portion 40 while being connected to the connecting yarns 42 every one course, and thus the strands 40 can be firmly fixed to the strip portion 40. In addition, the legs 41 on both sides may be formed one by one for each of the courses, but one for each of the two or three courses may be formed with a greater spacing.

When the external force is applied to the strip portion 40 and the strip portion 40 is detached from the high density portion 30, the base portion of the connecting yarn 42 bound to the strip portion 40 is wound around the strip portion 40 The connecting yarn 42 of the leg portion 41 connected to the high density portion 30 is cut off first. In addition, the connecting yarn 42 after being broken remains in the strip portion 40.

This manufacturing method is equally applicable to the ear strip portion 51 of the ear portion 50, on the other hand. That is, the ear strip portion 51 is connected to the side end of the high density portion 30 via the leg portion 52 like the strip portion 40, and the structure and the braiding method thereof can be changed as described above have. The other end of the ear strip portion 51 is connected to the rear portion through the connecting portion 54. However, the present invention is not limited thereto. For example, the leg portion 52 may be provided on both sides of the strip portion 40 It is possible.

Although the braiding method is described as an example in the present embodiment, the strip portion 40, the ear strip portion 51, the leg portion 52, and the like may be formed by a weaving method. Of course, nonwoven fabrics, other fibers, and other materials may be employed. The leg portion 52 may be removed or cut by a hand, but other cutting tools or cutting devices may be used.

Hereinafter, a light-shielding structure 200 according to an embodiment of the present disclosure will be described.

7 is a perspective view showing the overall configuration of a light-shielding structure 200 according to an embodiment of the present disclosure.

7, the light shielding structure 200 includes a support portion 210, an operation portion 220, a plurality of movable fasteners 230, and a fabric 100 having a plurality of slat portions 10 do.

The supporting part 210 supports the entire light-shielding structure 200 as a part for fixing the light-shielding structure 200 to a window or door when the light-shielding structure 200 is installed on a window or a door of a building such as an apartment, a house or an office . The support portion 210 includes a support housing 211 having a substantially straight pipe shape with an open bottom, a rotation shaft (not shown) accommodated in the support housing 211 and extending along the longitudinal direction and rotatably supported at both ends in the longitudinal direction, A guide rail 213 extending along the longitudinal direction of the support housing 211 to guide movement of the movable fastener 230 and a plurality of guide rails 213 accommodated in the support housing 211 to connect adjacent movable fasteners 230 (Not shown). A well-known support can be used as such a support, and its detailed configuration is well known, so a detailed description is omitted.

The operation unit 220 is a part operated by the user, and rotates the rotation shaft to switch the slat part 10 to the light shielding state and the lightening state. In the present embodiment, the operation portion 220 is described as being in the form of an operation rod, but may be an operation line or other types. The operating portion 220 includes a movable gear portion 221 that accommodates a gear mechanism for rotating the rotating shaft and is movable along a rotating shaft and an operating rod 222 that is coupled to the movable gear portion 221 and rotates the gear mechanism. When the operating rod 222 is rotated to rotate the gear mechanism, the rotating shaft rotates in the direction perpendicular to the rotating direction of the operating rod 222, that is, around the rotating shaft. As the gear mechanism for rotating the rotary shaft, for example, a known gear mechanism such as a bevel gear, a worm gear, or the like can be employed, and a detailed description thereof will be omitted.

The operating rod 222 can be connected to the movable gear portion 221 by a joint mechanism. The joint mechanism may be a multi-directional joint or coupling mechanism such as a universal joint. In this case, degree of freedom of operation and convenience are improved. Further, the movable gear portion 221 may be connected to the movable fastener 230 adjacent to the movable gear portion 221 by a connecting piece. In this case, the operating rod 222 is moved in the longitudinal direction along the rotating shaft 212, so that the slat portion 10 can be unfolded or folded together with the movable fastener 230.

The movable fastener 230 is a portion which is moved in the longitudinal direction along the rotating shaft 212 and rotates together with the rotation of the rotating shaft 212. [ The movable fastener 230 includes a gear mechanism (not shown) that rotates by the rotation of the rotating shaft 212 and a fixing mechanism 240 that rotates in accordance with the rotation of the gear mechanism. For example, a known gear mechanism such as a bevel gear, a worm gear, or the like can be employed as the gear mechanism that rotates by the rotation of the rotating shaft 212, and detailed description thereof will be omitted.

The fixing mechanism 240 is a mechanism for fixing the slat portion 10 by being coupled to the movable fastener 23. The fixing mechanism (240) includes a clamping mechanism for fixing the upper end of the slat portion (10). The clamping mechanism is preferably of a type in which the slat portion 10 is detachably clamped and fixed. For example, it can be adopted without limitation as long as it is a type that is clamped by pressing by a spring force, a type that clamps the projecting portion by inserting it into a hole, a type that is fixed by penetrating through a pin, or the like. In this case, there is an advantage that only the slat portion 10 can be removed, and maintenance such as washing and replacement can be performed freely.

The clamping mechanism may include, for example, a clamping portion for clamping and fixing a part or all of the upper end width of the high density portion 30. [ Further, when the movable fastener 230 is rotated, a stopper portion for stopping the rotation of the clamping portion may be protruded from the clamping portion to contact the adjacent clamping portion.

The fixing mechanism 240 may further include a latching portion for holding and supporting the clamping mechanism. The engaging portion may include a type in which a recess or a recess formed in the clamping mechanism is sandwiched between two elastic retaining jars opposed to each other at regular intervals, a type in which a hole formed in the clamping mechanism is engaged with a retaining ring, It is better to support it. In this case, it is possible to absorb the stress caused by the rocking motion of the slat portion 10 in the middle, thereby preventing the fixing mechanism 240 from being damaged.

The fabric 100 includes a plurality of slat portions 10 as described above. One end of the slat portion 10 may include one low density portion 20 and two high density portions 30 coupled to both sides of the low density portion 20. The slant portion 10 and the slant portion 10, a strip portion 40 may be provided. The adjacent two high density portions 30 may be fixed to the one fixing mechanism 240 in a folded state at the strip portion 40. [ That is, the adjacent two fixing mechanisms 240 fix the high-density portions 30 at both ends of the slat portion 10 at one stage. Further, each of the high-density portions 30 may be formed of a raw paper having different densities from each other.

7 shows the light shielding state of the light shielding structure 200. In the light shielding state, the plurality of slat portions 10 are arranged along the rotation axis in the longitudinal direction of the support portion 210 and spaced apart from each other as much as possible. As the rotary shaft rotates by the rotation operation of the operating rod 22, the gear mechanism of each of the moving fasteners 230 rotates and the respective slat parts 10 fixed to the fixing mechanism 240 are placed in the light shielding state And are arranged in a rotated state. In this state, the slat portion 10 is expanded in the direction in which the high-density portion 30 blocks the incident light, and a part of the adjacent clamping mechanism and the slat portion 10 are overlapped with each other. A part of the incident light is transmitted and the pattern of the low density portion 20 is projected onto the high density portion 30, but a generally excellent shielding state is shown.

8 is a perspective view showing a partially lighted state of the light shielding structure 200 of FIG. As the rotating shaft rotates by the rotation operation of the operating rod 222, the plurality of slat portions 10 rotate in the partial lighting state and the gear mechanism of each of the moving fasteners 230 rotates to the fixing mechanism 240 And each fixed slat portion 10 is rotated in a mining state. In this state, the slat portion 10 is developed so that the low density portion 20 faces the direction in which the incident light is shielded, and the high density portion 30 is folded in the direction in which the incident light passes. Most of the incident light is transmitted and the pattern of the low density portion 20 forms a shadow.

When the operation rod 222 is moved along the rotation axis and the guide rail 213 in the longitudinal direction of the support portion 210 to fold the slat portion 10 to one side in the partially illuminated state described above, It is possible to switch to the full-lighting state in which the incident light is not blocked.

Since the fabric 100 according to the present disclosure includes the strip portion 40 for each slat portion 10 at one end thereof, the strip portion 40 can be removed to separate the slat portions 10, It is possible to separate the slat portion 10 of the main body 10 from each other. Therefore, even when the occupant passes through the door or passageway through which the occupant passes, the entirety of the slat portion 10 does not pass through the slat portions 10 of the separated stage without any inconvenience can do. The fabric 100 according to the present disclosure can be manufactured in a planar state and can be installed and used in the light shielding structure 200 immediately after a simple operation in which the fabric 100 is fed and folded or the strip portion 40 is removed , The manufacturing and installation process is simple, and effort and cost can be saved.

On the other hand, the fabric may be provided as a fabric or as an integral fabric without strips. Further, the light shielding structure can be applied to other types of curtains, blinds, verticals, and the like.

As described above, although the fabrication method of the fabric and the fabric according to the present disclosure and the light-shielding structure using the fabric have been described according to the above embodiments, the present disclosure is not limited to the above-described embodiments, Change is possible. Further, the configurations of the above-described embodiments can be suitably combined with each other as needed. It is therefore to be understood that within the scope of the appended claims, the scope of the claims is to be interpreted broadly to include all modifications and other embodiments, including the technical features described in the following claims and their equivalents, Will understand.

10: slat part 20: low density part
30: high-density portion 40: strip portion
50: ear part 100: fabric
200: Shading structure

Claims (16)

The slat,
A strip portion formed adjacent to an edge of at least one side of the slat portion and extending along the edge,
A leg portion formed at one or more positions of the strip portion along a direction in which the strip portion extends and connecting the strip portion to the slat portion,
Wherein the strip portion is detachable from the slat portion by cutting the leg portion,
Wherein the leg portion has a smaller tensile strength than the strip portion and the slat portion. The method according to claim 1,
And a plurality of said slat portions,
Wherein the strip portion interconnects two adjacent slat portions by the leg portion,
Wherein the plurality of slats can be separated from each other by an operation of tearing off the strip portion so that the leg portion is cut. The method according to claim 1,
Wherein the slat portion includes a low density portion and a high density portion having a shielding property for at least one of light, air, sound, and heat on one side or both sides of the low density portion,
Wherein the strip portion is positioned adjacent to the high-density portion side of the slat portion,
And the leg portion is formed to connect the edge of the high density portion of the slat portion adjacent to the strip portion to the strip portion. The method according to claim 1,
Further comprising an ear portion on an outer side of the slat portion,
The ear portion extending along the strip portion in a state connected to the strip portion,
And the ear portion is separated from the slat portion together with the strip portion when the strip portion is separated from the slat portion. The method according to any one of claims 1 to 4,
Wherein when the strip portion is separated, the leg portion after cutting is left only in the strip portion, but not in the slat portion. A manufacturing method of a fabric including a slat part, a strip part, and a leg part connecting the slat part and the strip part,
Providing the slats, the strips and the yarns forming the legs,
Forming the slit portion using a yarn forming the slat portion and forming the strip portion along at least one edge of the slat portion using a yarn forming the strip portion;
Forming a leg at one or more positions of the strip portion along a direction in which the strip portion extends by using a yarn forming the leg portion to connect the strip portion to the slat portion,
Wherein the strip portion is detachable from the slat portion by cutting the leg portion,
Wherein the leg portion has a smaller tensile strength than the strip portion and the slat portion. The method according to claim 6,
The step of forming the leg portion may include a series of steps of connecting the yarn forming the leg portion to the strip portion and connecting the yarn connected to the strip portion to the slat portion and then reconnecting the yarn to the strip portion Thereby connecting the strip portion to the slat portion. The method according to claim 6,
A plurality of said slat portions are formed,
The strip portion is formed between two adjacent slats,
The step of forming the leg part may include connecting the yarn forming the leg part to the strip part, connecting the yarn connected to the strip part to a slat part located at one side of the strip part, and then reconnecting the yarn to the strip part And a step of connecting the yarn connected to the strip portion to a slit portion located on the other side of the strip portion and then connecting the yarn to the strip portion so that the strip portion is connected to two adjacent slat portions / RTI > The method according to claim 6,
Wherein the slat portion includes a low density portion and a high density portion having a shielding property for at least one of light, air, sound, and heat on one side or both sides of the low density portion,
Wherein the strip portion is formed adjacent to the high-density portion side of the slat portion,
Wherein the leg portion is formed to connect the edge of the high density portion of the slat portion adjacent to the strip portion to the strip portion. The method according to claim 6,
Further comprising an ear portion on the outer side of the slat portion,
The ear portion is formed to extend along the strip portion with the edge of the ear portion adjacent to the strip portion connected to the strip portion,
Wherein when the strip portion is separated from the slat portion, the ear portion is formed to be separated from the slat portion together with the strip portion. 11. The method according to any one of claims 6 to 10,
Wherein the leg portion is connected to the strip portion more tightly than the slat portion so that the leg portion remains only in the strip portion when the strip portion is separated from the slat portion. A support,
A movable fastener provided on the support portion and supporting the fabric,
And an operating portion provided on the supporting portion and operable to move the movable fastener into a light shielding state or a lightening state,
The light shielding state is a state in which at least a part of the fabric is overlapped with another part of the fabric in the traveling direction of the incident light,
Wherein the light state is a state in which the far end is not in the light shielding state,
The fabric,
The slat,
A strip portion formed adjacent to an edge of at least one side of the slat portion and extending along the edge,
A leg portion formed at one or more positions of the strip portion along a direction in which the strip portion extends and connecting the strip portion to the slat portion,
Wherein the strip portion is detachable from the slat portion by cutting the leg portion,
Wherein the leg portion has a smaller tensile strength than the strip portion and the slat portion,
Wherein the movable fastener supports one end of the slat portion in a direction in which the strip portion extends. 13. The method of claim 12,
Wherein the fabric comprises a plurality of slats,
Wherein the strip portion interconnects two adjacent slat portions by the leg portion,
Wherein the plurality of slat portions can be separated from each other by an operation of tearing off the strip portion so that the leg portion is cut. 13. The method of claim 12,
Wherein the slat portion includes a low density portion and a high density portion having a shielding property for at least one of light, air, sound, and heat on one side or both sides of the low density portion,
Wherein the strip portion is positioned adjacent to the high-density portion side of the slat portion,
The leg portion connects the edge of the high density portion of the slat portion adjacent to the strip portion to the strip portion,
Wherein the movable fastener is operated such that at least a part of the high-density portion of the fabric is overlapped with the low-density portion in the traveling direction of the incident light. The method according to any one of claims 12 to 14,
Wherein when the strip portion is separated, the leg portion after cutting is left only in the strip portion, but not in the slat portion. The method according to any one of claims 12 to 14,
Wherein the mining state is a partial mining state in which at least a part of the slant portion of the raw material is located on a path of incident light to block a part of the incident light and a state in which the slant portion of the raw material is located on the path of the incident light, And the light-shielding structure can be switched to a full-lighting state moved to one side of the support portion.

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