KR101899355B1 - the heating vinyl combined with conductive ink, the vinyl house using the heating vinyl combined with conductive ink and the manufacturing method of the heating vinyl combined with conductive ink - Google Patents

Abstract

In order to solve the above technical problems, the present invention provides a transparent or translucent base vinyl 110; A conductive ink 130 printed on the base vinyl 110; And a transparent or semitransparent coating vinyl 150 coupled to the upper portion of the base vinyl 110 on which the conductive ink 130 is printed,
A current flows into the conductive ink 130 and the conductive ink 130 generates heat to dissolve snow accumulated on the coating vinyl 150 to provide a heat generating vinyl 100 combined with the conductive ink.
In addition, the heat-generating vinyl 100 combined with the conductive ink is used. The heat-generating vinyl 100 having the conductive ink combined therewith is installed on the roof of the installed vinyl house, and after the snow is piled on the roof of the vinyl house, The conductive ink 130 is heated by flowing a current into the ink 130 so that the snow melts to reduce the snow load on the roof of the vinyl house, thereby providing a vinyl house using the exothermic vinyl combined with the conductive ink .
In addition, for producing the exothermic vinyl 100 in which the conductive ink is combined,
(a) a base vinyl installation step for laying and moving the base vinyl 110 through rollers; (b) a conductive ink printing step of printing the conductive ink 130 on the base vinyl 110; (c) a coating step of bonding the coating vinyl 150 onto the base vinyl 110 on which the conductive ink 130 is printed. .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a vinyl resin composition comprising a conductive vinyl resin and a conductive vinyl resin, method of heating vinyl vinyl combined with conductive ink}

The present invention relates to an ink-jet recording head comprising: a heat-generating vinyl combined with a conductive ink capable of removing accumulated snow using a heat-generating capability of a conductive ink without decreasing a light transmittance by printing conductive ink on the vinyl; To a method of producing pyrogenic vinyl combined with conductive ink.

In most rural areas, they produce various crops using vinyl houses. The vinyl house is a space covered with vinyl for cultivation of various vegetables or for cultivating tropical plants. It has a high airtightness and thermal insulation power and a relatively high illuminance, so it can provide an environment suitable for growing crops and is widely used in rural areas.

However, there was a problem that the structure of the vinyl house was weak and it collapsed easily when the roof was covered with snow especially in winter.

In order to solve such a problem, the strength of the frame for supporting the vinyl can be enhanced or the support frame can be installed more tightly. However, the space inside the vinyl house is narrowed and the installation and demolition of the vinyl house are expensive. The inventor of the present invention has been actively developing a technique of printing conductive ink for wiring of an electronic circuit when manufacturing a driving circuit in the field of electronic and display, and taking note of the heat generating performance of the conductive ink, The present invention has been accomplished to overcome the problems described above, which can remove snow with the heat of the conductive ink by covering the vinyl printed with the ink.

[Patent Document 1] Korean Utility Model No. 20-2009-0008572, 'Vinyl House Fume Vulcanizing Heat Vinyl', Aug. 26, 2009 [Patent Document 2] Korean Patent Laid-Open No. 10-2015-0090520, 'Light Vulcanized Plastic House for Vinyl House', Aug. 6, 2015.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is intended to provide heat-generating vinyl combined with conductive ink using the heat-generating performance of conductive ink.

Second, it is intended to provide a vinyl house using pyrogenic vinyl combined with a conductive ink which is easily removable and easy to install and remove without changing the structure of a conventional vinyl house.

Third, it is intended to provide a manufacturing method of a pyrogenic vinyl which combines conductive ink which can be produced with a predetermined quality by a simple process using a roller.

In order to solve the above technical problems, the present invention provides a transparent or translucent base vinyl 110; A conductive ink 130 printed on the base vinyl 110; And a transparent or semitransparent coating vinyl 150 coupled to the upper portion of the base vinyl 110 on which the conductive ink 130 is printed,

A current flows into the conductive ink 130 and the conductive ink 130 generates heat to dissolve snow accumulated on the coating vinyl 150 to provide a heating vat 100 in combination with the conductive ink.

Also, the heat-generating vinyl 100 having the conductive ink combined therewith is used. The heat-generating vinyl 100 having the conductive ink coupled thereto is installed on the roof of the installed vinyl house, and after the snow is piled on the roof of the vinyl house, The conductive ink 130 is heated by flowing a current into the ink 130 so that the snow melts to reduce the snow load on the roof of the vinyl house, thereby providing a vinyl house using the exothermic vinyl combined with the conductive ink .

In addition, for producing the exothermic vinyl 100 in which the conductive ink is combined,

(a) a base vinyl installation step for laying and moving the base vinyl 110 through rollers; (b) a conductive ink printing step of printing the conductive ink 130 on the base vinyl 110; (c) a coating step of bonding the coating vinyl 150 onto the base vinyl 110 on which the conductive ink 130 is printed. .

According to the present invention, the following effects are expected.

First, a heat-generating vinyl combined with a conductive ink using the heat-generating performance of the conductive ink is provided.

Second, a vinyl house using a pyrogenic vinyl combined with a conductive ink which is easily removable and easy to install and remove without changing the structure of a conventional vinyl house is provided.

Third, it provides a method of manufacturing a pyrogenic vinyl which combines a conductive ink which can be produced with a predetermined quality by a simple process using a roller.

1 is a perspective view of a vinyl house using exothermic vinyl combined with a conductive ink of the present invention provided with exothermic vinyl combined with a conductive ink of the present invention.
2 is an exploded perspective view of a pyrogenic vinyl incorporating the conductive ink of the present invention.
3 is a cross-sectional view of exothermic vinyl incorporating the conductive ink of the present invention.
4 is an embodiment of a pattern of conductive ink printed on a pyrogenic vinyl incorporating the conductive ink of the present invention.
Fig. 5 conceptually shows a process of a method for producing pyrogenic vinyl combined with the conductive ink of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Ⅰ. Conductive ink  bound Fever vinyl

FIG. 2 is an exploded perspective view of the exothermic vinyl combined with the conductive ink of the present invention, and FIG. 3 is a sectional view of the exothermic vinyl incorporating the conductive ink of the present invention.

The exothermic vinyl 100 combined with the conductive ink of the present invention comprises a transparent or translucent base vinyl 110; A conductive ink 130 printed on the base vinyl 110; And a transparent or semitransparent coating vinyl 150 coupled to the upper portion of the base vinyl 110 on which the conductive ink 130 is printed,

A current flows into the conductive ink 130 and the conductive ink 130 generates heat to dissolve snow accumulated on the coating vinyl 150.

It is preferable that the base vinyl 110 or the coated vinyl 150 is made of a transparent material so that there is no reduction in light transmittance in consideration of the vinyl house as a main use of the present invention.

However, when the present invention is used as a kind of heat insulation material or insulation material for interior and exterior glass or a wall of a building, color or texture can be imparted and it is not necessarily a vinyl material.

The conductive ink 130 typically uses printing for the wiring of an electronic circuit when manufacturing a driving circuit in the field of electronic and display,

Specifically, it is a carbon nanotube ink, a polymer ink, a copper ink, a silver ink, or a silver nanowire ink. In addition to the above, other ink materials may be used as long as they have a heat generation capability.

Among the above-mentioned examples, the carbon nanotube ink has an advantage of being excellent in conductivity and being capable of a printing process.

The exothermic vinyl 100 combined with the conductive ink of the present invention controls the amount of current flowing into the controller 500 coupled to the conductive ink 130 to adjust the amount of heat generated by the conductive ink 130, And the snow accumulated on the upper part of the ice making chamber 150 is melted.

The controller 500 can be used as long as it can adjust the amount of current and the calorific value irrespective of the digital or analog scheme or shape.

4 is an embodiment of a pattern of conductive ink printed on a pyrogenic vinyl incorporating the conductive ink of the present invention.

As shown in FIG. 4, the conductive ink 130 may be printed in a zigzag or ladder shape on the base vinyl 110, spaced apart from each other, without affecting the light transmittance Do.

The zigzag shape of FIG. 4A is an example of a serial method, and the shape of a ladder of FIG. 4B is an example of a parallel method.

However, in order to exert heat-generating performance even if some lines of the conductive ink 130 are broken or disconnected, it is possible to print lines by using a combination of serial and parallel types. Even if one unit is disconnected by printing in units, I can not.
In addition,
6, serial units 1, 2, 3, 4, ... ... Parallel units 1, 2, 3, 4, ... ... And the other unit maintains the heat generation even if one of the units is disconnected or disconnected and does not generate heat.

And although not shown,

In order to prevent breakage of the conductive ink 130,

At least one of the base vinyl 110 and the coating vinyl 150 may be reinforced with a mesh,

At least one of the base vinyl 110 and the coating vinyl 150 may be reinforced by forming a mesh layer on the outside.

The exothermic vinyl 100 combined with the conductive ink of the present invention can be applied to various fields such as a vinyl house, a building or an automobile glass.

Hereinafter, a vinyl house as a main use of the present invention will be described.

Ⅱ. Conductive ink  bound Fever vinyl  Used vinyl house

1 is a perspective view of a vinyl house using exothermic vinyl combined with a conductive ink of the present invention provided with exothermic vinyl combined with a conductive ink of the present invention.

The vinyl house using the exothermic vinyl combined with the conductive ink of the present invention uses the exothermic vinyl 100 in which the conductive ink is combined,

The conductive ink 130 is installed on the upper portion of the roof of the installed vinyl house so that the conductive ink 130 flows into the conductive ink 130 after the snow is accumulated on the roof of the vinyl house, The snow melts to reduce the snow load on the roof of the vinyl house.

Further, the controller 500 is operated while snow is accumulated on the roof of the vinyl house, and the amount of heat generated by the conductive ink 130 is controlled to melt the snow to reduce the snow load on the roof of the vinyl house do.

Ⅲ. Conductive ink  bound Exothermic  Manufacturing method

Fig. 5 conceptually shows a process of a method for producing pyrogenic vinyl combined with the conductive ink of the present invention.

The method for producing the exothermic vinyl combined with the conductive ink of the present invention is for producing the exothermic vinyl (100) combined with the conductive ink,

(a) a base vinyl installation step for laying and moving the base vinyl 110 through rollers;

(b) a conductive ink printing step of printing the conductive ink 130 on the base vinyl 110;

(c) a coating step of bonding the coating vinyl 150 onto the base vinyl 110 on which the conductive ink 130 is printed;

And a control unit.

And (d) a controller installing step of coupling the controller 500 to a terminal of the conductive ink 130. [

As a result, the present invention provides an ink-jet recording head comprising a heat-generating vinyl combined with a conductive ink capable of removing accumulated snow by using a heat-generating capability of a conductive ink without decreasing the light transmittance by printing a conductive ink on the vinyl, House and a conductive ink are combined with each other to manufacture a pyrogenic vinyl,

Provides a vinyl house using exothermic vinyl which combines conductive ink using the heat-generating performance of conductive ink and conductive vinyl ink which is easily removable and easy to install and remove without changing the structure of a conventional vinyl house. The present invention also provides a method of manufacturing a pyrogenic vinyl which combines conductive ink which can be produced with a predetermined quality by a simple process using a roller.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

100: Heat vinyl combined with conductive ink
110: Base vinyl
130: conductive ink
150: Coated vinyl

Claims (11)

Transparent or translucent base vinyl 110;
A conductive ink 130 printed on the base vinyl 110;
A transparent or translucent coating vinyl 150 that couples the conductive ink 130 onto the printed base vinyl 110;
, ≪ / RTI >
A current flows into the conductive ink 130 and the conductive ink 130 generates heat to dissolve snow accumulated on the coating vinyl 150,
The conductive ink (130)
The conductive ink 130 is printed on the base vinyl 110 in the form of a ladder, which is a zigzag or a parallel unit, which is a serial unit. In order to exert heat-generating performance even when the conductive ink 130 is broken or broken, A line is printed in a unit unit by using a combination of parallel formats,
Serial units 1, 2, 3, 4, ... ... Parallel units 1, 2, 3, 4, ... ... And the other unit maintains the heat generation even if one of the units is disconnected or disconnected and is not exothermically heated.
delete delete delete delete delete delete A method for producing a pyrogenic vinyl (100) combined with the conductive ink of claim 1,
(a) a base vinyl installation step for laying and moving the base vinyl 110 through rollers;
(b) a conductive ink printing step of printing the conductive ink 130 on the base vinyl 110;
(c) a coating step of bonding the coating vinyl 150 onto the base vinyl 110 on which the conductive ink 130 is printed;
Wherein the conductive ink is applied to the conductive ink.
delete delete delete

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