KR20170110825A - Manufacturing method of fabric for wearable solar cell and fabric for wearable solar cell thereby - Google Patents

Abstract

The present invention is to provide a woven fabric used as an electrode substrate for constituting a wearable solar cell having excellent shape stability and flexibility.
The present invention is characterized in that the tension of the warp yarns is individually adjusted when woven using metal fibers and both side edge portions of the unit cell made of a predetermined warp are constituted by the structure of the Leno structure, So that warpage of the warp yarns does not occur, so that weaving with metal fibers is performed in the loom.

Description

Technical Field [0001] The present invention relates to a manufacturing method of a woven fabric for a wearable solar cell and a fabrication method thereof,

The present invention relates to a metal fiber woven fabric applied to a flexible wearable solar cell comprising a fabric.

The photovoltaic industry, which is leading the renewable energy industry, is expected to grow steadily in the future, especially in the market demand for thin-film solar cells.

In recent years, attention has been focused on wearable devices due to the announcement of Google Glass.

Wearable devices require 24-hour power supply, and although a small-sized battery is incorporated, development of a more effective power source capable of supplying power required for a wearable device is attracting attention.

As the world enters the era of smart technology, the center of technology is shifting to flexible electronics and wearable devices, and the development of solar cells is also required to be lightweight, robust, and flexible.

The wearable solar cell developed in this way is expected to be applied to interior materials such as blinds, outdoor, smart healthcare, and the like.

 The wearable solar cell developed up to now uses an electrode body in which a metal plate between an upper layer and a lower metal plate and a metal sheet is interposed between the metal plate and the light electrode and the dye are printed by a screen printer process and sealed using a sealing member, It is known that a flexible solar cell in the form of a cloth can be manufactured by filling the inside of the member with an electrolyte and connecting the terminal electrode to the fiber electrode and wiring.

According to Korean Patent Laid-Open Publication No. 2014-0093791 (dye-sensitized solar cell using fiber weaving), a photoelectrode and a counter electrode woven with a metal wire as a warp and an insulator wire as a weave are used, A solar cell using a fiber weaving process is disclosed.

However, it is difficult to fabricate the electrode precisely enough to make a solar cell, and it is difficult to manufacture the electrode precisely because of the tension and the frictional force which the fine metal fibers inevitably undergo during the weaving process. There is a problem that production workability is significantly lowered in commercial weaving equipment in order to produce actual woven fabric.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for manufacturing a woven fabric for a wearable solar cell having flexibility based on an electrode body woven with metal fibers.

According to an aspect of the present invention, there is provided a method of fabricating a metal fabric, the method comprising: setting a maximum tension of a warp at a predetermined set value according to physical properties of the metal yarn before starting weaving, And when the weaving is started, the warp tension at the opening is set to the set value through the warp tension adjusting device, And adjusting the weft tension so that the rate of change of the oblique tension of the obtuse gauges falls within a range of 30% or less of the set value. In the unit cell composed of the predetermined oblique slopes, Wherein the tension of the warp yarn, which is a twist for forming the leno yarn, is adjusted by a separate guide tension device. The present invention also provides a method of manufacturing a woven fabric for a wearable solar cell.

In a conventional loom, since the metal fiber has bad stretchability and is sensitive to a change in tensile force, it is hardly possible to commercially weave due to too many yarn splices. However, in the present invention, a yarn splicing device Since the tension of the warp begins to change and the warp tension is preliminarily adjusted by using the equalizing roller interlocked with the sizing device, the degree of the warp tension change can be easily and finely reduced, , It becomes possible to commercially woven metal fibers in looms.

1 is a woven fabric for a wearable solar cell according to an embodiment of the present invention.
2 is an SEM photograph of the surface of the woven fabric of Fig. 1 enlarged.
Fig. 3 is an SEM photograph showing an enlarged cross section of the woven fabric of Fig. 1. Fig.
4 is an example of a loom including a warp adjusting device according to an embodiment of the present invention.
Figure 5 is a fabric woven in a loom according to one embodiment of the present invention.
FIG. 6 is a photograph showing a leno sheath mounted to form a modified portion of a unit cell according to an embodiment of the present invention.

In order to provide a woven fabric as a substrate for constructing a wearable solar cell having excellent shape stability and flexibility, metal fibers are used, but the tension of the warp yarns is individually adjusted when weaving, The present invention relates to a method for improving the weaving work performance and the speed by forming the outermost perimeter portion with a structure by the Leno structure, suppressing the occurrence of stitches,

The woven fabric of the present invention is produced by weaving a metal fiber in warp and weft with plain weave, dobby weave or main weave, using a metal fiber having a fineness of 35 to 100 mu m, and in a unit cell having a predetermined inclination, The portion of the target located at both edges of the cell may be structured by a Leno structure.

If the thickness of the metal fiber is less than 35 탆, the friction of the warp becomes worsened during the weaving process, and the warp may be cut or stretched due to the tensile force. The metal fiber may be sensitive to the warp tension adjusting device of the present invention, If it is more than 100 탆, opening and closure are not smoothly performed due to the bad elasticity characteristic of the metal fiber, so that the weaving speed is remarkably lowered and the thickness of the weaving fabric becomes thick and the flexibility is lowered.

The metal fibers may be made of metal fibers such as stainless steel fibers (SUS yarns), silver fibers, copper fibers, nickel fibers, and the like. The use of stainless steel fibers is preferable in terms of strength and cost More preferable.

The fabric of the present invention can be woven in a conventional rapier loom capable of forming a wide width of 60 inches or more. At this time, weaving is performed while forming a unit cell composed of a predetermined inclination, and the length of the inclined part of the unit cell is 10 to 300 mm have.

In addition, it is preferable that the inclination density of the unit cell is 100 to 600 ends / inch. Therefore, when the electrolyte is injected into the spaces between the SUS yarns in the manufacturing process of the solar cell, The efficiency of the solar cell can be improved by the uniform thickness of the car part.

It is preferable that the woven fabric of the present invention is woven in the form of a pile by passing 4 to 12 o'clock through a single shear, whereby the delicate metal fibers having weak strength and poor elongation due to their thin thickness are subjected to warp tension It is possible to suppress the cutting and to form the thickness of the intersection portion between the SUS corporations.

At this time, both edges of the unit cell are loosely wrapped with a warp tension, so that a warp knot phenomenon occurs, and a warp is often broken when a weft is inserted into the openings.

Accordingly, in the present invention, the edge of the unit cell is formed of a leno structure in which the fibers having the leno structure are reciprocally moved about the other inclination of one of the plurality of inclinations located on the same line so that a plurality of inclinations are twisted, And the warp is formed by woven by weft. In the case of the warp of the Leno structure, the oblique yarn is wound around the warp and weft, so that the oblique warp of about 4 to 10 times is consumed. Alternatively, a separate leno light beam may be used, or a warp may be provided on the krill as many as the number of leno warp yarns. In this case, the tension is adjusted for each warp using an elastic guide tension device.

At this time, the delivery tension of the leno warp yarns is controlled by a tension washer mounted on the krill, and the difference in tension along the weft yarn axis of the leno yarn can be controlled by the guide tension device, so that a constant tension can be maintained.

In general, when weaving, the tension of the warp changes in a pulsating manner during one revolution of the main axis in synchronization with the main movement of the loom.

As a result, when the tension of the warp becomes temporarily high due to an opening or body striking motion, or when a pile tilt such as a towel loom forms a pile at a low tension, Correction is required.

The adjustment of the warp tension for correcting the tension may be performed by adjusting the rotational speed of the oblique beam, or by winding the warp on the tension roll and controlling the amount of the warp yarn output corresponding to the position change of the tension roll.

As a method of adjusting the tension of the warp yarn, there is a method using easing motion.

This is because, during a position control period including a beating timing among one cycle consisting of opening, overflow and beating of a loom, an easing roll operating device such as a servo motor is driven by position control, the easing roll is positioned at a predetermined fixed position, And a method of moving the sizing roll by driving the sizing roll operating device so as to be adjusted in the tension range in which the warp tension is set in the tension control period including the maximum opening timing.

The warp tension in the loom can be adjusted with the rotational speed of the warp beam as mentioned above, but in order to weave high density fabrics, it is possible to use an easing device which causes the easing motion, in which case the easing device is driven by the crankshaft So that the capability of quickly grasping the change in tension and finely controlling the tension is degraded. As a result, it is not easy to control the warp tension of sensitive SUS.

The present invention uses fine and delicate metal fibers such as titanium (Ti) or stainless steel suitable for wearable use of a photoelectrode substrate for a solar cell, so that deformation and trimming of the metal fiber occur too much during weaving, It becomes. In other words, metal fibers are not stretchable, so that they are easily broken or stretched when they are subjected to a tension higher than a set tension, and once they are stretched they are not reduced to their original state. As a result of stitching, it is impossible to weave itself due to poor stitching of weights and wefts. Thus, metal fibers are very sensitive fibers that are difficult to weave during the weaving process.

Accordingly, in the present invention, as shown in Fig. 4, in order to adjust the tension of the metal fiber inclination to a predetermined range, in a positive type rapier loom, a dobby machine for driving an individual shear machine, And a tensioning device connected to the easing device and including an easing roller that adjusts the tension of the taper while the position is changed in the longitudinal and lateral directions by the jigging device. can do.

In a conventional loom, when weaving is started, the changed warp tension is measured, and then the warp tension is controlled through the sizing device or the imaging roller.

On the other hand, in the present invention, when the weaving is started, the dougher is operated for the opening and closure, and the slope tension is changed at the opening and closing time by the sheath frame connected to the dougher, The dicing device interlocked with the dobby device is operated simultaneously with the operation of the dobby device. By this operation, the position of the dicing roller can be changed so that the tension of the tilt can be adjusted in the set value range in advance.

Generally, when woven with a metal thread, the warp tension at the time of opening is maximized, and the warp tension at the closing time is instantaneously reduced to 40 to 50% of the maximum warp tension. In the present invention, The maximum tilting tension at the time of opening is set by the jigging device and the jigging device is simultaneously operated according to the operation of the jigger at the time of closure, The change of the slope tension is adjusted to be within 30% with respect to the set maximum slope tension, the width of the slope tension change is minimized, and the stability of the slope is improved, so that the weaving can be easily performed.

At this time, the set value of the maximum slope tension can be set according to the physical properties of the slope such as the kind of the slope, the number, the elongation, and the like.

At this time, the easing device can use an elastic means such as a position changing means or a spring or the like by a weight to be applied, but in the present invention, a easing device having a plurality of link mechanisms that perform joint motion in conjunction with the dobby motion is used.

In the construction of the fabric of the present invention, when weaving with a single weft or weft, weaving can not withstand friction and excessive tension change during weaving process, and weaving itself becomes impossible, It is preferable that the weft yarns are weighed at a high density while strengthening the weak bending strength of the warp yarns when the weft yarns are once peaked at 2 to 6 rolls.

At this time, a positive type replier head can be applied to get 2 ~ 6 all as described above.

Hereinafter, the present invention will be described in detail with reference to Examples. It is to be understood, however, that these examples are for illustrative purposes only and are not to be construed as limiting the scope of the invention as defined by the appended claims. And will be apparent to those skilled in the art to which the present invention pertains.

[Example]

Dobie; A coupling device having a plurality of link mechanisms for performing joint motion in conjunction with movement of the doffer; And an urging tension adjusting device including an urging tension adjusting device including an urging tension adjusting device including an urging tension adjusting device including an urging tension adjusting device including an urging tension adjusting device, , And the weft portion is 10 mm. The weft density is 576 ends / inch, and the density of the weft having two weights over 1 peak is 80T in order to form a plurality of unit cells having a fiber structure density of thread / inch, stainless steel fibers having a circular cross section and having a thickness of 50 占 퐉 are used as warp and weft yarns, And let it pass 12 o'clock to one body, and set the maximum number of slant to 19,200, and prepare for weaving.

The maximum tension of the warp is then set to 15 Kg before starting the weaving, and when the weaving is started, the doffer is operated to form a cycle of opening, overrun and closure, and at the same time the above- At the same time, the sizing device operates the sizing roller, and weaving was performed while adjusting the warp tension of the waste cloth to 12 Kg, thereby succeeding in obtaining the fabric as shown in FIG.

At this time, in order to make the modified part of the inclination of the unit cell to have a structure by the Leno structure, a tilted leno is inserted with a predetermined constant tension by a tension washer mounted above and below the tilted leno, So that it is six times the warp slope Weaving.

Claims (10)

When weaving metal fabrics using metal yarns,
A warp tension setting step of setting a maximum warp tension at a predetermined set value according to physical properties of the metal yarn before starting weaving; And
When the weaving is started, the warp tension at the opening is set to the set value through the warp tension adjusting device, And controlling the rate of change of the oblique tension of the obturator to be within a range of 30% of the set value,
In a unit cell having a predetermined inclination, a slanting part located at both edges of the cell is formed by a structure of a Leno structure,
Wherein the tension of the tilted leno yarn for forming the leno structure is adjusted by a separate guide tension device. The method according to claim 1,
Wherein the metal yarn is stainless steel yarn and has a diameter of 35 to 100 mu m. The method according to claim 1,
Wherein the warp tension adjusting device comprises: a shaver for operating a shade frame for opening and closing; A jigging device having a plurality of link mechanisms for performing a joint motion so as to move the easing roller in association with the motion of the doffer; And And an idling roller interposed between the tilted beam and the sheath and interlocked with the easing device to adjust the tension of the tilting while changing its position to the front,
In the weaving operation, the doffer is operated for opening and closure, and the easing device interlocked with the doffer operates simultaneously with the operation of the doffer. By this operation, the position of the easing roller is changed And adjusting the tension of the warp yarn. The method according to claim 1,
Wherein the desired length of the warp yarns is 4 to 10 times the warp yarns. The method according to claim 1,
Wherein the warp yarns are drawn in one sheath at 4 to 12 o'clock and the weft yarn is warped at 2 to 6 o'clock at a time when picking the weft yarn once. The method according to claim 1,
Wherein the cell has a number of bevels of 100 to 600 ends / inch. The method according to claim 1,
Wherein the woven fabric has a maximum slope of 6,400 to 32,000 by pulling 4 to 16 inches in one body when woven. The method according to claim 1,
Wherein the unit cells are formed in a single cell having a width equal to or greater than a width at the time of woven fabric formation. The method according to claim 1,
Wherein the structure of the metal fabric is one of a plain weave, a weave texture, and a weave texture. A process according to any one of claims 1 to 9, characterized in that the density of the metal yarn warp yarns is 100 to 600 ends / inch Wearable fabrics for wearable solar cells.

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