KR20140013150A - Can be bent to increase or decrease in flexible electronic devices, and color variable devices and solar cell devices - Google Patents

Abstract

The present invention relates to an electronic device that can be stretched, reduced, or bent flexibly, an electronic device having a variable color using the same, and a solar cell device fill film.
The present invention provides a pair of plates (11) provided on the outside of the solar cell and the device having an electronic device that can be stretched, reduced or flexible bent and a variable electronic device color using the same; A plurality of electronic devices that can be stretched, reduced or flexibly provided with a plurality of predetermined intervals inside the plate and the plate, and a device and a solar cell device having a variable color using the same; And a joint part 13 which interconnects the plurality of electronic devices that can be bent, reduced, or flexibly flexibly, and the electronic device and the solar cell having a variable color of electronic device using the same. Devices 10a, 10b, 10c, 10d, 10e, 10f, 10g, 10h, 10i, 10j and 10k, which can be unfolded or straightened, are provided.
The present invention configured as described above can increase or decrease the flexible electronic device and the flexible device and solar cell device having a variable color using the same, as well as to be able to bend, fold or straighten the flexible In particular, it is possible to apply such a device to glass, plastic, film, metal, etc., and then attach and support it on various geometric curves. This greatly improves the quality and reliability of the product. ) So that they can plant good images.

Description

Can be bent to increase or decrease in flexible electronic devices, and color variable devices and solar cell devices}

The present invention relates to an electronic device that can be stretched, reduced, or flexed flexibly, and a device and a solar cell device having a variable color. It is possible to increase or decrease the device and the solar cell device having the color to be flexible, and to bend, fold or straighten the flexible device. In particular, after applying such a device to glass, plastic, film, metal, etc., various geometric curves It is designed to be attached to and to support the product, which greatly improves the quality and reliability of the product, thereby satisfying various needs (users) of consumers as users.

As is well known, in recent years, unlike fossil energy such as coal and petroleum, social demand for clean energy without environmental pollution is gradually increasing, and among them, interest in technology utilizing solar energy is increasing day by day.

According to this trend, research and development of technologies utilizing solar energy are being activated, and their application fields are diversifying. In particular, the utilization of solar energy in the construction field is prominent.

On the other hand, conventional electronic devices that can be stretched, reduced or flexible, and devices and solar cells having a variable color using the same have been filed as many as the prior art below, the following problems have occurred.

That is, the prior art has a big problem that the electronic device that can be stretched, reduced, or bent flexibly, a device having a variable color and a solar cell device using the same can not be variously applied to geometric places of various industrial sites. .

In addition, the electronic device and the solar cell device of the prior art have been maintained in a straight form, and this point was pointed out as a big problem that it can not be used in various applications in the geometric place of the industrial site.

In addition, the electronic device and the solar cell device of the prior art can not be applied to glass, plastic, film, metal, etc., as well as a lot of limitations in use because it can not be attached to the support of various geometric curves.

In particular, the prior art has been pointed out as a big problem that in order to use a glass having a soft curve or a product that can transmit light, it is necessary to calculate the curvature and use the calculated data to construct an electronic device and a solar cell. .

(Prior Art Document 1) Korean Utility Model Registration No. 021357 (Application No. 2001-0011551) (name: device with a solar cell) has been registered. (Previous Technical Document 2) Korean Patent Publication No. 2005-0108958 (Application No. 2004-0034416) (name: support frame integrated solar cell device) has been filed.

The present invention has been made to solve the above problems of the prior art, an electronic device or LED, OLED, optoelectronic, display substrate or solar cell that can be flexibly stretched, reduced or flexible with various functional layers and plate layers and The first object of the present invention is to provide a device made of a joint, and a second object of the present invention according to the above-described technical configuration is to increase, decrease or flexibly flex an electronic device, and a device having a variable color and a solar cell. Since the device can be increased or decreased, it has a big advantage that it can be applied to various geometric places of various industrial sites, and the third purpose is to increase, decrease or flexibly flex the electronic device and the variable color using the same. Flexible device and solar cell device Because it can be bent, folded or straightened, it can be used in various places in geometrical places of various industrial sites. The fourth purpose is to use electronic devices that can be stretched, reduced, or flexed flexibly, and variable colors using the same. The present invention can be applied to glass, plastic, film, metal, and the like, as well as various attachments to various geometric curves to support various advantages in use. Electronic devices that can be bent, stretched, or flexed flexibly, and devices with variable colors and bent joints between solar cells, are not used to calculate and apply conventional electronic devices and solar cells to curved surfaces. To produce products that can be attached The sixth objective is to greatly increase the quality and reliability of the product, thereby increasing, reducing or flexing the electronic device to satisfy the various needs (customers) of the consumers as users, so that a good image can be formed. It provides a device and a solar cell device and a film having a variable color used.

In order to achieve the above object, the present invention provides an electronic device that can be bent, stretched or flexibly, and a pair of plates provided on the outside of a device or a solar cell having a variable color using the same; A functional layer provided with one or more inside the plate and the plate; A plurality of electronic devices that can be stretched, reduced or flexibly provided with a plurality of predetermined intervals in the plate and the interior of the plate and the functional layer, and devices and solar cells having a variable color using the same; And a joint portion connecting the plurality of electronic devices that can be bent, reduced, or flexibly or connected to each other, or a device or a solar cell having a variable color using the same. A stretchable, shortened, or flexibly flexible electronic device, a device having a variable color and a solar cell device using the same, characterized in that it is provided with a device that can be increased or decreased by a flexible bending, folding, or straightening. Provide a film.

As described in detail above, the present invention is provided with various functional layers and plate layers, an electronic device that can be bent, reduced, or bent flexibly, and a device or a solar cell device having a variable color.

The present invention by the above-described technical configuration can increase or decrease or flexibly flex the electronic device and the device having a variable color and solar cell device and film using the same can be increased or reduced in the geometric place of various industrial sites The great advantage is that it can be applied in various ways.

In addition, the present invention can be flexibly bent, folded or straightened the electronic device that can be stretched, reduced or flexibly, the device having a variable color and the solar cell device using the same, so that the various places in the geometric place of various industrial sites It is intended to be applied and used.

In particular, the present invention can be applied to glass, plastic, film, metal, etc. of the electronic device that can be stretched, reduced or flexible bent, the device and the solar cell device having a variable color using the same, as well as various geometric curved parts It can be attached and supported on a variety of ways to have many advantages in use.

In addition, the present invention is to use a bent cell joint between a plurality of electronic devices and solar cells to produce a product that can be attached directly, rather than the method that was calculated and applied to apply the existing electronic devices and solar cells to the curved surface.

The present invention greatly improves the quality and reliability of the product due to the above-described effects, which is a very useful invention that can be used to plant a good image by satisfying various needs (needs) of consumers.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a first embodiment of an electronic device which can be bent, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
2 is an essential component diagram of a solar cell device and a device having a variable color using the same, an electronic device that can be flexibly stretched, reduced or flexibly applied to the present invention.
3 is a main configuration diagram of an electronic device that can be bent, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
4 is a configuration diagram of a second embodiment of an electronic device that can be stretched, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
5 is a configuration diagram of a third embodiment of an electronic device that can be stretched, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
6 is a configuration diagram of a fourth embodiment of an electronic device which can be bent, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
7 is a configuration diagram of a fifth embodiment of an electronic device which can be stretched, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
8 is a configuration diagram of a sixth embodiment of an electronic device that can be stretched, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
9 is a configuration diagram of a seventh embodiment of an electronic device which can be bent, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
FIG. 10 is a configuration diagram of an eighth embodiment of an electronic device that can be stretched, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
11 is a configuration diagram of a ninth embodiment of an electronic device which can be bent, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
12 is a configuration diagram of a tenth embodiment of an electronic device that can be stretched, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
13 is a configuration diagram of an eleventh embodiment of an electronic device which can be bent, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device.
(A) to (n) of FIG. 14 is an electronic device or a solar cell joint portion constituting an electronic device that can be bent, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device. Degree.
15 (a) to (o) is an electronic device or a solar cell joint constituting the electronic device that can be stretched, reduced or flexible bent and a variable color using the same and a solar cell device applied to the present invention in detail Degree.
Figure 16 (a) to (e) is an electronic device or a solar cell joint constituting the electronic device that can be stretched, reduced or flexible bent and a device having a variable color and a solar cell device used in the present invention in detail Degree.
Figure 17 (a) to (n) is an electronic autonomous or solar cell joints constituting a stretchable, reduced or flexible bendable electronic device and a device having a variable color using the same and a solar cell device applied to the present invention Degree.
18 (a) to (c) is an electronic device or a solar cell joint constituting the electronic device that can be stretched, reduced or flexible bent and a device having a variable color using the same and a solar cell device applied to the present invention Degree.
19 (a) to (l) show an electronic device or a solar cell joint constituting an electronic device that can be bent, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device. Degree.
Figure 20 (a) (b) is a detailed view of the electronic device or solar cell joints constituting a stretchable, reduced or flexible bend electronic device and a device having a variable color using the same and a solar cell device applied to the present invention .
21 (a) to 21 (p) show an electronic device or a solar cell joint portion constituting an electronic device which can be bent, reduced or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device. Degree.

An electronic device that can be bent, reduced, or flexibly applied to the present invention, a device having a variable color using the same, and a solar cell device are configured as shown in FIGS. 1 to 13.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention is provided with one or more plates 11 provided on the outside of the electronic device or the solar cell 12.

In addition, an electronic device or a solar cell substrate layer 6 having a plurality of predetermined intervals is provided in the plate 11 and the plate 11.

In addition, the plurality of electronic devices or the solar cell substrate layer 6 may be formed of one or more electronic device patterns or solar cell patterns 5, and the patterns may include at least one joint part connecting the electronic device and the solar cell 12 to each other ( 13); electronic devices which can be increased or decreased by means of flexible bending, folding or straightening, and devices having a variable color using the same, solar cell devices, and films 10a, 10b, 10c, 10d. (10e) (10f) (10g) (10h) (10i) (10j) (10k) are provided.

In particular, in the present invention, as shown in FIGS. 2 to 3 and 14 to 21, the joint part 13 connecting the plurality of electronic devices and the solar cell 12 to each other can increase or decrease the device and bend it flexibly. It is preferable to bend it into a regular or irregular shape so that it can be folded, folded or straightened. And the device 10a, 10b, 10c, 10d, 10e, 10f, 10g, 10h, 10i, 10j, 10k applied to the present invention can be flexed or flexed. Of course, the layer including the electronic device and the device having the variable color and the solar cell 12 can be kept in a vacuum state for smooth operation.

In addition, the plates 11 of the devices 10a, 10b, 10c, 10d, 10e, 10f, 10g, 10h, 10i, 10j, 10k, electronic devices, and solar cells 12 Between each is preferably a functional layer or protective layer 14 to maintain the electronic device and solar cell to facilitate the protection or operation.

In addition, the surface of the plate 11 applied to the present invention is formed in a smooth plane as shown in Figures 1 and 5 to 13, or as shown in Figure 4 a plurality of protrusions at regular intervals to collect the solar heat ( 15) can be used to form.

On the other hand, the device 10d applied to the present invention can be configured as shown in FIG.

That is, the protective layer 14 and the plate (top) of the plurality of electronic devices that can be bent, reduced or flexible bent, the device having a variable color using the same and the joint 13 connecting the solar cells 12 to each other ( 11 is provided in sequence, and the lower end of the joint 13 is provided with a protective layer 14a, an optoelectronic 16, a protective layer 14b and a support 18 in sequence.

In this case, the optoelectronics 16 are connected to the joints 13a formed to be bent in a regular or irregular shape to connect the plurality of optoelectronics 16 to each other.

In addition, a thermally variable element 17 may be provided between the plurality of optoelectronics 16 and the functional layer or the protective layer 14b.

In particular, the invention consists of

A method of making an electronic device or a solar cell device and a film that can be stretched, reduced, or flexed or folded flexibly, wherein the electronic device or solar cell 12 has one or more regular or irregular joints 13. An electronic device pattern or a solar cell pattern 5, characterized in that at least one; an electronic device substrate or a solar cell substrate 6, characterized in that it comprises one or more; It provides an electronic device or a solar cell device and a film that can be bent or folded easily.

In addition, the joint 13 is viewed from the top of the joint 13a to the joint 13aza when viewed from the side of the electronic device, characterized in that it has a regular or irregular straight or straight and curved form. 13ba) to an electronic device pattern or a solar cell pattern (5) characterized in that it has at least one joint (13bn); one or more electronic device substrate or solar cell substrate (6); It provides an electronic device or a solar cell device and a film which can be stretched, reduced, or bent or folded flexibly.

In addition, the joint part 13 has regular or irregular straight lines or straight and triangular forms of the electronic device, which is characterized in that the joints 13ca to the joints 13cy and the top of the joint ( 13da) to an electronic device pattern or a solar cell pattern (5) characterized in that it has one or more of the joint portion (13dp); one or more electronic device substrate or solar cell substrate (6); It provides an electronic device or a solar cell device and a film which can be stretched, reduced, or bent or folded flexibly.

In addition, the joint portion 13 is a regular or irregular straight line or a straight line and a rectangular shape when viewed from the side of the electronic device characterized in that the joint portion (13ea) to the joint portion (13ee) when viewed from the top ( 13fa) to an electronic device pattern or a solar cell pattern (5) characterized in that it has one or more (13fg); at least one electronic device substrate or a solar cell substrate (6); It provides an electronic device or a solar cell device and a film which can be stretched, reduced, or bent or folded flexibly.

In addition, the joint 13 is a regular or irregular straight line or a straight line and a trapezoidal shape when viewed from the side of the electronic device (13ga) to the joint (13gp) and when viewed from the top of the joint ( Electronic device pattern or solar cell pattern (5) characterized in that it has one or more joints (13hp) within 13ha); one or more electronic device substrate or solar cell substrate (6); It provides an electronic device or a solar cell device and a film which can be stretched, reduced, or bent or folded flexibly.

In addition, the joint 13 is viewed from the top of the joint 13d within the joint 13a when viewed from the side of the electronic device, which has a regular or irregular straight line or a straight line and a polygonal shape. 13ie) an electronic device pattern or a solar cell pattern 5, characterized in that it has one or more joints 13ih or less; an electronic device substrate or a solar cell substrate 6, characterized in that one or more are provided; It provides an electronic device or a solar cell device and a film which can be stretched, reduced, or bent or folded flexibly.

In addition, the joint portion 13 has a regular or irregular straight line or a straight line and a helical shape when viewed from the side of the electronic device as viewed from the side (13oa) of the joint portion (13ob) and when viewed from the top side ( 13pa) an electronic device pattern or a solar cell pattern (5) characterized in that it has one or more joints (13pb); one or more electronic device substrate or solar cell substrate (6); It provides an electronic device or a solar cell device and a film which can be stretched, reduced, or bent or folded flexibly.

In addition, the joint part 13 is located on the upper side of the joint part 13lazc within the joint part 13la when viewed from the side of the electronic device in which the forms described in claims 2 to 7 can be used independently, repeatedly, or in combination with each other. Electronic device pattern or solar cell pattern (5) characterized in that it has one or more joints (13my) within the joint portion (13ma); electronic device substrate or solar cell substrate (6) characterized in that one or more are provided Provides an electronic device or a solar cell device and a film that can be stretched, reduced, or flexibly bent or folded.

In addition, the joint part 13 is characterized in that the electronic part is characterized in that it has at least one joint part 13 which can be used independently, repeatedly, or in combination with each other when viewed from the side of the electronic device. Electronic device substrate or solar cell substrate (6) characterized in that the device pattern or solar cell pattern (5); is provided; stretchable, reduced or flexible bend or foldable electronic device, characterized in that it includes Or a solar cell device and a film.

In addition, the electronic device pattern or the solar cell pattern 5 includes two or more electronic devices or solar cells 12, and the electronic device pattern or solar cell pattern, characterized in that at least one joint 13 is connected therebetween. (5); an electronic device substrate or a solar cell substrate, characterized in that provided with at least one; 6, an electronic device or a solar cell device and film that can be stretched, reduced, or flexibly folded or folded To provide.

Also in a method of making an electronic device (eg LED, OLED, display substrate, etc.) or solar cell 12 device and film that can be stretched, reduced, or flexed or folded in a flexible manner, the method

a. An electronic device substrate or solar cell substrate 6, characterized in that at least one electronic device pattern or solar cell pattern 5 including regular or irregular joints 13 is included;

b. It provides an electronic device or a solar cell device and a film comprising at least one of the substrate layer (6).

In addition, at least one electronic device device or a solar cell device 5 includes a substrate layer (6); and at least one substrate layer (6) characterized in that provided with at least one functional layer comprising the substrate layer (6) (14); provides an electronic device and a solar cell device and a film of a multi-layer structure to be able to increase, decrease, or flex or fold flexibly.

In addition, the electronic device film and the solar cell film has at least one plate layer 11; the electronic device and the solar cell device and the film of the multi-layer structure to be stretched, reduced, or flexibly folded or folded To provide.

Also in a method of making an electronic device or a solar cell device having a curved surface,

a. Provided are multilayer films and devices comprising at least one substrate layer (6), a functional layer (14), a plate (11), and a neutral mechanical surface control layer, wherein at least one of the multilayers has spatially non-uniform properties Positioning the neutral machine surface in a functional layer at or near the same space;

b. Providing a curved surface; and

c. It provides a multi-layered electronic device and a solar cell device or film having a curved surface comprising the step of conformally wrapping the curved surface with the multilayer device.

In addition, a pair of plates 11 provided outside the electronic device and the solar cell; An electronic device or a solar cell 12 provided with a plurality of predetermined intervals inside the plate and the plate; And at least one joint portion 13 connecting the plurality of electronic devices or the solar cells to each other so that the plurality of electronic devices or the solar cells can be extended or reduced and bend, fold, or unfold flexibly.

Multi-foldable, flexible or flexibly multi-layered, characterized in that the device 10a, 10b, 10c, 10d, 10e, 10f, 10g, 10h, 10i, 10j, 10k is provided. Provided are an electronic device having a structure, a device having a variable color, and a solar cell device and a film using the same.

In addition, the joints 13 connecting the plurality of electronic devices or the solar cells 12 to each other may be formed to be bent in a regular or irregular shape so as to increase or decrease the device and to bend, fold or straighten the device flexibly. To provide a multi-layered electronic device that can be stretched, reduced or flexible bend or a device having a variable color using the same and a solar cell device and a film.

In addition, the electronic device substrate which can be stretched, reduced or flexibly bent of the devices 10a, 10b, 10c, 10d, 10e, 10f, 10g, 10h, 10i, 10j, 10k, and A device substrate having a variable color using the same, and a layer including the solar cell device substrate 6 is maintained in a vacuum state, which can be stretched, reduced, or flexibly bent, or a device having a variable color using the same. And a solar cell device and a film.

In addition, in the method of making the electronic device and the solar cell device,

a. The functional layer 14 is planar or has one or more spatially nonuniform properties,

b. The functional layer 14 provides an electronic device or a solar cell device and a film, which has a function of supporting or protecting the electronic device substrate or the solar cell substrate 6 or for smooth operation. .

In addition, the functional layer 14 is an optical compensation member, transparent heat resistant resin, film, glass fiber, fluorine resin film, optical protective film, heat resistant coating agent, polyester film, reflective sheet film, polymer film, adhesive film, EVA film Electronic materials or solar cells comprising materials selected from the group consisting of vinyl, textiles, spandex, latex, leather, paper, polymers, elastomers, ceramics, metals, glass, semiconductors, inorganic polymers and organic polymers It provides an apparatus and a film.

In addition, in the method of making the electronic device and the solar cell device,

a. The plate 11 is flat or has one or more spatially nonuniform characteristics,

b. The plate 11 provides an electronic device or a solar cell device and a film, characterized in that it has a function that can be provided or protected to support or smoothly operate the electronic device substrate or the solar cell substrate 6. .

In addition, the plate 11 is polymer, elastomer, ceramic, metal, glass, semiconductor, inorganic polymer and organic polymer, fabric, vinyl, latex, spantex, leather, optical compensation member, transparent heat-resistant resin, film, glass fiber, fluorine An electronic device or an aspect comprising a material selected from the group consisting of a resin film, an optical protective film, a heat resistant coating agent, a polyester film, a reflective sheet film, a polymer film, an adhesive film, an EVA film, vinyl and paper. A battery device and a film are provided.

In addition, the device 10d may include a plurality of electronic devices that can be bent, reduced, or flexibly flexed, a device having a variable color using the same, and a protective layer at an upper end of the joint 13 connecting the solar cells 12 to each other. 14 and the plate 11 are sequentially provided, and the lower end of the joint 13 is provided with a protective layer 14a and an optoelectronic 16, and a protective layer 14b and a support 18 in sequence. The present invention provides an electronic device that can be stretched, reduced or flexibly, a device having a variable color using the same, and a solar cell device.

In addition, the device 10e may be configured to sequentially or irregularly arrange an electronic device device 5 including at least one bent, unfoldable or flexibly folded joint 13 and an LED or an OLED 12a. An electronic device substrate layer (6) characterized by comprising:

a. Supplying a multi-layer device comprising at least one substrate layer 6 and a functional layer 14,

b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And

c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,

d. The multilayer provides a method of making an electronic device and a film, wherein the multilayer has a uniform shape or at least one layer comprises spatially non-uniform properties.

In addition, the device 10f is characterized in that the electronic device device 5 including at least one bent, unfolded or flexibly folded joint 13 and the display substrate 12b is sequentially or irregularly arranged. An electronic device substrate layer (6) comprising;

a. Supplying a multi-layer device having at least one substrate layer 6 and a functional layer 14,

b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And

c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,

d. The multilayer provides a method of making an electronic device and a film, wherein the multilayer has a uniform shape or at least one layer comprises spatially non-uniform properties.

In addition, the device 10g is characterized in that the electronic device device 5 including at least one bent, unfolded or flexibly folded joint 13 and the display substrate 12b is sequentially or irregularly arranged. An electronic device substrate layer 6; and an electronic device device 5 including at least one bent, unfolded or flexibly folded joint 13 and a light source electronic device 12c. An electronic device substrate layer (6) characterized in that arranged; a method of making an electronic device device having a variable color, characterized in that

a. Supplying a multi-layer device comprising at least one substrate layer 6 and a functional layer 14,

b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And

c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,

d. The multilayer provides a method of making an electronic device and film having a variable color, wherein the multilayer has a uniform shape or at least one layer comprises spatially non-uniform properties.

Finally, the electronic device and the solar cell device or film provides an electronic device or a solar cell device and a film, characterized in that one or more are arranged or connected in a regular or irregular arrangement.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the present invention configured as described above, increase or decrease or flexibly flexible electronic device and the device and the solar cell device having a variable color using the same.

First, the present invention can increase or decrease the electronic device and the solar cell device, as well as to flexibly bend, fold or straighten the device, and in particular, after applying such a device to glass, plastic, film, metal, etc. It is attached to the curved part so that it can be supported.

To this end, the present invention enables the manufacture of transparent, stretchable, or flexibly flexible electronic devices, devices having varying colors and solar cell devices, films, and the like, including glass, plastic, films, or metals.

In other words, the glass containing transparent electronic devices and solar cells is a general building based on electronic devices that can manufacture, stretch, reduce or flexibly flex existing electronic devices and solar cells on a substrate, and devices and solar cells having variable colors using the same. The glass may be manufactured and used after laminating it between single layer and multilayer glass, for example, or for automobile glass.

And the electronic device that can be stretched, reduced, or flexed flexibly, the device having the variable color, the solar cell device and the layer containing the film can be kept in a vacuum state, and the glass can be in various colors to suit the user's characteristics. It can be provided, of course, in particular stretchable, shrinkable or foldable electronic devices that can be bent, reduced or flexible bent and devices having a variable color using the same and glass products having a curve using the joints of solar cells It is easier to apply the electronic device and the solar cell.

In addition, the glass, plastic, metal, etc., including the transparent solar cell is made of transparent or colored glass, plastic, metal between the electronic device and the bent continuous joint form of the solar cell, the electronic device that can be stretched, reduced or flexibly and A device having a variable color and solar cell glass, plastic, and metal devices using the same will be manufactured.

In addition, glass, plastic, and metal may be made in various colors or shapes according to the user's characteristics.

In addition, if manufactured in the above manner it can be used by attaching the electronic device that can be stretched, reduced or flexible bent to bent glass, plastic, metal shape, and a device and a solar cell device having a variable color using the same.

In addition, it is possible to more easily apply glass, plastic, and metal products having curved lines by using electronic devices that can be stretched, shrunk or folded, devices having variable colors, and solar cell joints.

In addition, a film containing a transparent solar cell is an electronic device that can be stretched, reduced, or flexibly bent to form an electronic device and a continuous continuous bent form of a solar cell, and a device having a variable color using the same. And manufacturing a solar cell film.

In this case, the film may be provided in various colors or shapes according to the user's characteristics, and if manufactured in the above manner, the film may be attached to a flat or irregular curved portion, and various kinds of films may be used, among which EVA film Of course, such as can be used.

Finally, stretchable, stretchable or flexible bendable electronic devices manufactured by the above methods, and devices and solar cell devices and films of varying colors using the same can be bent, stretched or shortened, and their uses have been applied to various fields of other industries. It can be utilized.

According to the present invention, the bent cell joint 13 between the electronic device and the solar cell 12 is a product that can be attached directly, rather than a method used to calculate and apply the conventional electronic device and the solar cell to a curved surface. Can produce

In addition, the use of the present invention is very useful because it is easy to use the electronic device that can be stretched, reduced or flexibly bent to a light transmitting material having a geometric curve, and the device and the solar cell having a variable color using the same. Do.

In addition, electronic devices that can be stretched, reduced, or flexed flexibly, devices with varying colors using the same, semiconductor molds for producing solar cell devices and films, and products regardless of the size of the light transmitting material to be used for electronic devices and solar cells This has the advantage of being applicable.

In addition, the present invention can be applied to the electronic device and the solar cell device because it can be applied as it is by using the bent state of the electronic device and the solar cell rather than the method of determining the size of the existing electronic device and the solar cell to apply to the curved surface. The semiconductor production mold to be produced can be used in a small quantity.

In addition, this method has the advantage that it can be used in products that can bend like a film that it can only be used for supporting light transmitting materials that can maintain the shape of the cells for using electronic devices and solar cells.

In addition, the present invention can be a revolutionary application method in the manufacture of products containing a solar cell to use the existing solar heat.

That is, when manufacturing a solar cell by attaching a film, there is an advantage that it can be easily attached regardless of its use, such as a product already produced, that is, a glass window of a building or an automobile glass vessel.

Accordingly, the present invention can drastically reduce the cost of manufacturing electronic devices and solar cell products, and also means that the utilization method has many methods for industrial development.

The technical idea of the electronic device which can be increased or decreased or flexibly flexibly, the device having a variable color and the solar cell device using the same can actually repeat the same result. It can be promoted and contribute to industrial development, so it is well worth protecting.

Description of the Related Art
5: Electronic device pattern or solar cell pattern
6: electronic device substrate or solar cell substrate
10a, 10b, 10c, 10d: device
11: Plate
12: electronics or solar cells
12a: LED or OLED
12b: display board
12c: light source electronics
13: joint
14: functional layer or protective layer

Claims (29)

In a method of making an electronic device or a solar cell device and a film that can be stretched, reduced, or flexed or folded, the method
Electronic device pattern or solar cell pattern (5), characterized in that one or more of the electronic device or solar cell 12 has one or more regular or irregular joints (13);
An electronic device substrate or a solar cell substrate (6) characterized in that it comprises one or more; one or more electronic devices or solar cell devices and films that can be stretched, reduced, or flexibly folded or folded.
The method according to claim 1,
The joint 13 is viewed from the top of the joint 13a through the joint 13aza when viewed from the side of the electronic device, characterized in that it has a regular or irregular straight or straight and curved form. ) Or an electronic device pattern or a solar cell pattern (5) characterized in that it has at least one joint 13bn;
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The joint part 13 is a regular or irregular straight line or a straight line and a triangular form of the electronic device, characterized in that the side portion 13ca to the joint portion 13cy when viewed from the top and the joint portion 13da ) Or an electronic device pattern or a solar cell pattern (5) characterized in that it has at least one joint 13dp;
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The joint part 13 is a regular or irregular straight line or a straight line and a rectangular shape, characterized in that the side of the electronic device 13ea to 13ee when viewed from the side and the joint 13fa when viewed from the top ) Or an electronic device pattern or a solar cell pattern (5) characterized in that it has one or more (13fg);
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The seam 13 is viewed from the side of the seam 13ga to seam 13gp when viewed from the side of the electronic device, characterized in that it has a regular or irregular straight or straight line and a trapezoidal shape. Electronic device pattern or solar cell pattern (5), characterized in that it has one or more joints (13hp) within;
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The joint part 13 has a regular or irregular straight line or a straight line and a polygonal shape. The joint part 13ia within the joint part 13ia and the joint part 13ie when viewed from above. An electronic device pattern or a solar cell pattern (5) characterized in that it has at least one joint 13ih;
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The joint 13 is a regular or irregular straight line or a straight line and a spiral form of the electronic device, characterized in that viewed from the side of the joint (13oa) within the joint (13oa) and viewed from the top (13pa) An electronic device pattern or a solar cell pattern 5, characterized in that it has at least one joint 13pb);
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The seam 13 is viewed from the top of the seam 13lazc within the seam 13la when viewed from the side of the electronic device in which regular or irregular shapes can be used independently, repeatedly or in combination with each other. An electronic device pattern or a solar cell pattern 5, characterized in that it has at least one joint 13my within 13ma);
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The joint portion 13 is an electronic device, characterized in that it has at least one joint portion 13 when viewed from the side of the electronic device and the joint portion 13 can be used independently, repetitively or in combination with each other. Pattern or solar cell pattern 5;
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
The electronic device pattern or solar cell pattern 5 includes two or more electronic devices or solar cells 12, and at least one joint 13 is connected therebetween. 5); this
An electronic device substrate or a solar cell substrate (6) characterized in that it is provided with at least one; an electronic device or a solar cell device and a film that can be stretched or reduced or flexible bend or fold.
The method according to claim 1,
In a method of making an electronic device or a solar cell 12 device and a film that can be stretched, reduced, or flexed or folded flexibly, the method
a. An electronic device substrate or solar cell substrate 6, characterized in that it comprises at least one electronic device pattern or solar cell pattern 5 including one or more regular or irregular joints 13;
b. Electronic device or solar cell device and film, characterized in that it comprises at least one of the electronic device substrate or the solar cell substrate (6).
The method of claim 11,
A substrate layer 6 comprising one or more electronic device or solar cell devices 5; and
At least one functional layer 14 including at least one substrate layer 6 and including at least one functional layer 14; at least one of the plurality of substrate layers 6 is provided. To make electronics and solar cell devices and films.
The method of claim 12,
The electronic device film and the solar cell film is one or more plate layer (11);
An electronic device and a solar cell device and a film which can be bent, folded or folded in a multi-layered structure characterized in that it is provided with.
The method of claim 12,
In the method of making an electronic device or a solar cell device having a curved surface,
a. Provided are multilayer films and devices comprising at least one substrate layer (6), a functional layer (14), and a neutral mechanical surface control layer, wherein at least one of the multilayers has spatially non-uniform properties, and the spatially non-uniformity One characteristic is to locate a neutral machine surface in or near the same space as the functional layer;
b. Providing a curved surface; and
c. Comprising the step of conformally wrapping the curved surface with the multi-layer device electronic device and solar cell device and film having a curved surface characterized in that it comprises.
14. The method of claim 13,
In the method of making an electronic device or a solar cell device having a curved surface,
a. Provided are multilayer films and devices comprising at least one substrate layer (6), a functional layer (14), a plate (11), and a neutral mechanical surface control layer, wherein at least one of the multilayers has spatially non-uniform properties Positioning the neutral machine surface in a functional layer at or near the same space;
b. Providing a curved surface; and
c. Comprising the step of conformally wrapping the curved surface with the multi-layer device electronic device and solar cell device and film having a curved surface characterized in that it comprises.
14. The method of claim 13,
A pair of plates 11 provided outside the electronic device and the solar cell;
An electronic device or a solar cell 12 provided with a plurality of predetermined intervals inside the plate and the plate; And
One or more devices 10a, 10b, 10c, and 10d, which can be extended or reduced and flexibly bent, folded, or straightened by at least one joint 13 which interconnects the plurality of electronic devices or solar cells. 10e) (10f) (10g) (10h) (10i) (10j) (10k) is a multi-layered electronic device that can be stretched, reduced or flexible bent, and a device having a variable color using the same; and Solar cell devices and films.
14. The method of claim 13,
The joints 13 connecting the plurality of electronic devices or the solar cells 12 to each other may be formed to be bent in a regular or irregular shape so as to increase or decrease the device and to bend, fold or straighten the device flexibly. A multi-layered electronic device that can be stretched, reduced, or bent flexibly, or a device having a variable color using the same, and a solar cell device and a film.
14. The method of claim 13,
An electronic device substrate which can be stretched, reduced or flexibly bent of the devices 10a, 10b, 10c, 10d, 10e, 10f, 10g, 10h, 10i, 10j, 10k The device substrate having the variable color used and the layer including the solar cell device substrate 6 are maintained in a vacuum state, which can be stretched, reduced or flexibly bent electronic device or a device having a variable color using the same. Solar cell devices and films.
The method of claim 12,
In the method of making the electronic device and the solar cell device,
a. The functional layer 14 is planar or has one or more spatially nonuniform properties,
b. The functional layer (14) is an electronic device or a solar cell device and film, characterized in that it has a function that can be provided or protected for supporting or smooth operation of the electronic device substrate or solar cell substrate (6).
14. The method of claim 13,
In the method of making the electronic device and the solar cell device,
a. The functional layer 14 and the plate 11 are planar or have one or more spatially nonuniform properties,
b. The functional layer 14 and the plate 11 are provided with an electronic device or a solar cell device, characterized in that it has a function that can be provided or protected for supporting or smooth operation of the electronic device substrate or the solar cell substrate 6 And film.
The method of claim 12,
The functional layer 14 is a resin, an aqueous resin, an optical compensation member, a transparent heat resistant resin, a film, a glass fiber, a fluorine resin film, an optical protective film, a heat resistant coating agent, a polyester film, a reflective sheet film, a polymer film, an adhesive At least one material selected from the group consisting of film, EVA film, vinyl, fabric, spantex, latex, leather, paper, polymer, elastomer, ceramic, metal, glass, semiconductor, plastic, microorganism, inorganic polymer and organic polymer An electronic device or a solar cell device and a film, characterized in that.
14. The method of claim 13,
The plate 11 may be made of resin, aqueous resin, plastic, polymer, elastomer, ceramic, metal, glass, semiconductor, inorganic polymer and organic polymer, fabric, vinyl, latex, spantex, leather, optical compensation member, transparent heat resistant resin, At least one material selected from the group consisting of film, glass fiber, microorganism, fluororesin film, optical protective film, heat-resistant coating, polyester film, reflective sheet film, polymer film, adhesive film, EVA film, vinyl and paper Electronic device or solar cell device and film comprising a.
The method of claim 11,
A protective layer 14 and a plate 11 are formed on the upper end of the plurality of electronic devices that can be bent, reduced, or flexibly flexed, a device having a variable color using the same, and a joint 13 connecting the solar cells 12 to each other. ) Are sequentially provided,
At the lower end of the joint 13, a protective layer 14a, an optoelectronic 16, and a protective layer 14b and a support 18 are sequentially provided. Electronic device or solar cell device and film having a variable color using the same.
The method of claim 11,
Electronic device substrate layer 6, characterized in that the electronic device 5 comprising at least one bent, unfolded or flexibly folded joint 13 and the optoelectronics 16 is arranged sequentially or irregularly. A method of making an electronic device comprising:
a. Supplying a multi-layer device comprising at least one substrate layer 6 and a functional layer 14,
b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And
c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,
d. The multilayer has a uniform shape or at least one layer comprises spatially non-uniform properties
At the lower end of the joint 13, a protective layer 14a, an optoelectronic 16, and a protective layer 14b and a support 18 are sequentially provided. Electronic device or solar cell device and film having a variable color using the same.
The method according to claim 11,
Electronic device substrate layer characterized in that the electronic device device 5 including at least one bent, unfolded or flexibly folded joint 13 and the LED or OLED 12a are arranged sequentially or irregularly ( 6) A method of making an electronic device comprising:
a. Supplying a multi-layer device comprising at least one substrate layer 6 and a functional layer 14,
b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And
c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,
d. The electronic device or solar cell device and film, characterized in that the multilayer has a uniform shape or at least one layer comprises a spatially nonuniform property.
The method according to claim 11,
Electronic device substrate layer 6, characterized in that the electronic device 5 comprising at least one bent, unfolded or flexibly folded joint 13 and the display substrate 12b is arranged sequentially or irregularly. A method of making an electronic device comprising:
a. Supplying a multi-layer device having at least one substrate layer 6 and a functional layer 14,
b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And
c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,
d. The electronic device or solar cell device and film, characterized in that the multilayer has a uniform shape or at least one layer comprises a spatially nonuniform property.
The method of claim 11,
Electronic device substrate layer characterized in that the electronic device device 5 including at least one bent, unfolded or flexibly folded joint 13 and the light source electronic device 12c are arranged sequentially or irregularly ( 6) A method of making an electronic device having a variable color, characterized by comprising:
a. Supplying a multi-layer device comprising at least one substrate layer 6 and a functional layer 14,
b. One or more layers of the plate 11 may be included according to a method of using the electronic device; And
c. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,
d. The multilayer or the electronic device or solar cell device and film having a variable color, characterized in that the uniform shape or at least one layer comprises a spatially non-uniform property.
The method of claim 11,
An electronic device substrate layer (6) characterized in that the electronic device (5) comprising at least one bent, unfolded or flexibly folded joint (13) is arranged sequentially or irregularly. A method of making an electronic device having a variable color, characterized by
a. The electronic device may include at least one of an LED or an OLED 12a, a display substrate 12b, and a light source electronic device 12c.
b. Supplying a multi-layer device comprising at least one substrate layer 6 and a functional layer 14,
c. One or more layers of the plate 11 may be included according to a method of using the electronic device; And
d. The substrate layer 6, the functional layer 14, the plate 11 may be provided with one or a plurality of to decorate the electronic device,
e. The multilayer or the electronic device or solar cell device and film having a variable color, characterized in that the uniform shape or at least one layer comprises a spatially non-uniform property.
The method of claim 11,
The electronic device and the solar cell device or film is an electronic device or a solar cell device and film, characterized in that one or more can be used to be stacked or connected in a regular or irregular arrangement.

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