KR101929827B1 - Poles for lighting tent - Google Patents

Abstract

The present invention relates to a pole for a tent with a lighting. By installing an organic light emitting diode and a solar cell with an excellent flexibility in a pole for a tent, the organic light emitting diode is operated by using electrical energy charged by the solar cell such that an additional lighting is not required to provide a lighting effect.

Description

Poles for lighting tent "

The present invention relates to a pole for a tent fused with illumination, and more particularly, to a pole for a tent, in which an organic light emitting diode and a solar cell having excellent flexibility are provided on a tent pole and the organic light emitting diode is operated through energy charged by sunlight The present invention relates to a pole for a tent in which light is fused so that illumination can be performed.

Generally, a tent is a small tent used for sleeping or living in the open air. Such a tent is a flower of camping and a basic equipment. In other words, when camping, a tent is a house that can be called a house, to prevent wind and rain, to provide shelter, and most activities are centered around tents.

In the case of a living-room-type tent, the inner tent, the ply, the pole, and the string and the pack are composed of the tent as described above. These living-room tents are installed in such a way that the tent is installed using a pole, the ply is covered, and the tent is fixed firmly to the ground using a string and a pack.

The backpack tent is a small tent for one to four people that can be put in a backpack. The backpack tent is different from the manufacturer and the model, but generally consists of a tent, a pole, a string and a pack. It is installed in a way that the pole is used to install the tent, and the string and the pack are used to securely fix it on the ground.

If the tent as described above is installed in a nose, a campground, or a deck, various lighting devices such as a flashlight or a lantern are installed at night to illuminate the vicinity of the tent, thereby preventing nighttime activity.

However, as described above, there is a problem that it is difficult to freely use two hands when a nighttime lighting is used by installing a tent in a nose, a campsite, or a deck, and there is a problem that it is also difficult to put a lamp in a tent.

In addition, as described above, there is a danger that when the tent is installed in the nose, the campsite, or the deck and the lighting is hung on the tent, there is a danger that the head hits the head.

Korea Open Patent No. 2012-0128843 (Published on November 28, 2012) Registered Utility Model No. 20-0469518 of the Republic of Korea (Notice of October 16, 2013) Korean Registered Utility Model No. 20-0186940 (Published in June 15, 2000) Korea Public Utility Model Office 2000-0020430 (Published on December 25, 2000) Japanese Patent Application Laid-Open No. 2007-115585 (published on May 10, 2007)

Disclosure of the Invention The present invention has been conceived to solve all the problems of the prior art, and it is an object of the present invention to provide an organic light emitting diode and a solar cell having excellent flexibility on a tent pole and operating the organic light emitting diode through energy charged by sunlight, And it is an object of the present invention to provide a pole for a tent in which light is fused so that illumination can be performed without using a lamp.

Another object of the present invention is to provide a tent pole capable of operating an organic light emitting diode through energy charged by sunlight by providing an organic light emitting diode and a solar cell having excellent flexibility, So that the volume can be reduced.

It is another object of the present invention to provide a tent pole capable of operating an organic light emitting diode through energy charged by sunlight by providing an organic light emitting diode and a solar cell having excellent flexibility, In addition, the object of the present invention is to enable light to be transmitted to the outside.

The present invention configured to achieve the above-described object is as follows. That is, the pole for a tent fused with illumination according to the present invention is a pole for a tent which can maintain a uniform shape by supporting a tent river when a tent is installed. The pole is installed and fixed in a state of being wrapped around the pole, A plurality of solar cells for converting into electrical energy; A transparent solar cell protection cover that is installed on the outer circumference of the solar cell and formed as a hollow pipe to protect the solar cell; A storage battery installed at one side of the pole for storing electric energy converted by the solar battery; An OLED which is installed and fixed in a state of being wrapped around the outer periphery of the pole and illuminates the inside and the outside of the tent by supplying electric energy stored in the battery; A transparent or translucent OLED protection cover which is formed on the outer circumferential surface of the OLED and is formed as a hollow pipe to protect the OLED; And a power switch installed on one side of the pole to turn on / off the power of the OLED.

In the structure according to the present invention as described above, the solar cell may be composed of a transparent electrode using carbon nanotubes or graphene, or a dye-sensitized flexible solar cell.

In addition, in the configuration according to the present invention, the power switch can be configured to be capable of adjusting the amount of light by being configured in a dialing manner.

In addition, in the configuration according to the present invention, the pole may be in the form of a foldable pole used in a length-adjustable column-type pole or dome-type tent used in a TP tent.

In addition, in the configuration according to the present invention, a USB port may be further provided at one side of the pole so as to utilize electrical energy stored in the battery as an auxiliary battery.

According to the technology of the present invention, an organic light emitting diode and a solar cell having excellent flexibility can be installed on a pole for a tent, and the organic light emitting diode is operated through the energy charged by the sunlight, thereby enabling illumination without using a separate lamp It is effective.

In addition, the technology of the present invention provides a tent pole for operating an organic light emitting diode through the energy charged by sunlight by providing an organic light emitting diode and a solar cell having excellent flexibility, thereby reducing the volume during backpacking There is an advantage that it can be.

In addition, the technology of the present invention provides a pendant for a tent which is capable of operating an organic light emitting diode through energy charged by sunlight by installing an organic light emitting diode and a solar cell having excellent flexibility, It has the advantage of transmitting light.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a pole for a tent fused with illumination according to the present invention. Fig.
Fig. 2 is a front view showing a pole for a tent fused with lighting according to the present invention; Fig.
3 is a view showing application of a pole for a tent fused with a lighting according to the present invention to a TP tent;
FIG. 4 is a view showing application of a pole for a tent fused with illumination according to the present invention to a dome-shaped tent. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a tent pole according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a pole for a tent fused with illumination according to the present invention, FIG. 2 is a front view showing a pole for a tent fused with illumination according to the present invention, and FIG. FIG. 4 is a view showing application of a pole for a tent fused with a lighting according to the present invention to a dome-type tent. FIG. 4 is a view illustrating application of a pole for a tent to a TP tent.

As shown in FIGS. 1 to 4, a pole 100 for a tent fused with illumination according to the present invention is installed and fixed in a state of being wrapped around an outer circumferential surface of a pole 110 to convert a light energy into electric energy. A battery 120, a solar cell protection cover 130 which is installed on the outer circumferential surface of the solar cell 120 and formed as a hollow pipe to protect the solar cell 120, a solar cell protection cover 130 installed on one side of the pole 110, The battery 140 is installed and fixed on the outer circumferential surface of the pole 110 to supply electrical energy stored in the battery 140 to the inside / A transparent or semi-transparent OLED protection cover 160 formed on the outer circumferential surface of the OLED 150 and formed in a hollow pipe shape to protect the OLED 150, And the OLED 150 is turned on / OFF consists of a configuration of a power switch 170 for.

The pole 100 for a tent fused with illumination according to the present invention constructed as described above is constructed by lighting a pole 110 for supporting a tent stream to maintain a constant shape when a tent is installed. In other words, the pendant 100 for a tent in which the illumination according to the present invention is fused is provided with the illumination only by supporting the tent stream when the tent is installed, so that no separate lighting device is required for camping or unfolding.

In the meantime, the pole 100 for a tent fused with the illumination of the present invention having the above-described structure can be applied to any pole 110, such as an upright type columnar column type pole used for a TP tent and a folding type pole type used for a dome type tent, It is a technology that can be applied to. In this case, when the technique of the present invention is applied to the upright type columnar column type upright column used for the TP tent, it should be applied to the outermost column type of the largest diameter.

On the other hand, when the pole 100 for a tent in which the illumination according to the present invention is fused is constituted, it can be applied to each of the folded poles when it is constructed as a foldable pole used in a dome type tent.

Each component constituting the pole 100 for a tent fused with illumination according to the present invention will be described in more detail as follows. In other words, the pole 110 constituting the present invention supports the tent river when the tent is installed, so that it can maintain a certain shape. Such a pole 110 can be used as an upright for mounting the TP tent, And a foldable pole for installing a dome-shaped tent as shown in Fig.

In the case of the columnar pole 110 as described above, since the TP tent is formed in the form of a triangle, the columnar pole 110 does not warp, but the foldable pole 110 for installing the dome- In the case of the tent raft, the tent is supported in the form of a dome.

Next, a solar cell constituting the present invention is for converting light energy into electric energy. Such a solar cell 120 is wrapped around an outer peripheral surface of a pole 110 as shown in FIGS. 1 to 4 And the light energy is converted into electric energy.

In other words, the solar cell 120 as described above refers to a material that converts light energy into electric energy. Since the conventional solar cell is made of ITO transparent electrode ceramic material, when ITO is bent, electrons do not flow well and the hole formed in the pn junction layer does not move well, so that the efficiency of conversion of light energy into electrical energy is drastically decreased.

Accordingly, in the present invention, a solar cell 120 using a transparent electrode using carbon nanotubes or graphenes is used for application to the pole 110 where warping occurs. The transparent electrode using such a carbon nanotube or graphene can operate well because the electricity flows well even if the transparent electrode is bent.

In addition to the solar cell 120 using the semiconductor of the transparent electrode using carbon nanotubes or graphenes as described above, the dye-sensitized solar cell 120 using the photosynthesis principle of plants may also be used. Such a dye-sensitized solar cell 120 is a principle in which a plant produces light energy received through a photosynthesis action as an electron flow and uses it as energy for oxidation and reduction.

The solar cell protection cover 130 constituting the present invention is for protecting the solar cell 120 installed and fixed on the outer circumferential surface of the pole 110, And is formed on the outer circumferential surface of the solar cell 120 as a hollow pipe shape as shown in FIG.

The solar cell protection cover 130 configured as described above is made of a transparent plastic material for protecting the solar cell. At this time, the solar cell protection cover 130 also has a structure such that the solar cell 120 can be flexed flexibly, such as the pole 110 or the solar cell 120.

Of course, the surface of the solar cell 130 may be coated with a transparent material by replacing the solar cell protection cover 130 made of a transparent plastic material as described above, or a transparent coated paper may be coated on the surface of the solar cell 130 So that the solar cell 120 can be protected.

The battery 140 constituting the present invention is for accumulating electric energy produced through the solar cell 120. The battery 140 is connected to the pole 110 as shown in FIGS. And the electric energy converted by the solar cell 120 is stored.

Meanwhile, as described above, the battery 140 installed at one side of the pole 110 and storing the electric energy converted by the solar battery 120 is detachable so as to be replaceable. In order to utilize the electrical energy stored on the battery 140 for the auxiliary battery, the USB port 180 is further formed at one side of the pole 110 in the present invention.

Next, the OLED 150 constituting the present invention is for illuminating the periphery by emitting electric energy through the electric energy stored on the battery 140, and this OLED 150 is formed as shown in FIGS. 1 to 4 And is installed and fixed in a state of being wrapped around the outer periphery of the pole 110 to illuminate the inside and the outside of the tent by the supply of electric energy stored in the battery 140. [

The OLED 150 as described above refers to an organic light emitting diode (OLED), and refers to a device that converts electric energy into light energy by applying an electric field to an organic material. Electrons and holes injected through the cathode and the anode are recombined in the organic thin film (low molecular or polymer), and excitons generated at this time are returned to the ground state, This is a phenomenon of light emission.

On the other hand, the OLED 150 as described above differs from the LED, the line-shaped fluorescent lamp, and the circular-type incandescent light, which are the point light sources, and the light source is the only surface type. The OLED 150 has no glare and heat generation and contains heavy metals such as lead and mercury It can be said to be environment-friendly lighting. In addition, it is a lighting device that can realize various lighting because it does not have a viewing angle due to the characteristics of a bent substrate of a display and a transparent electrode which is bent and stretched freely.

As described above, the OLED 150 having the characteristics of the bent substrate of the display and the transparent electrode stretched freely and stretched freely supports the tent stream when the dome-type tent is installed as shown in FIG. 4, Warpage occurs naturally due to the warping of the pole table 110.

An OLED protection cover 160 constituting the present invention is for protecting an OLED 150 installed and fixed on an outer circumferential surface of the pole 110. The OLED protection cover 160 is formed of a transparent conductive material, As shown in the figure, the OLED 150 is formed on the outer circumference of the OLED 150 as a hollow pipe.

The OLED protection cover 160 configured as described above is made of a transparent plastic material that protects the OLED 150. At this time, the OLED protection cover 160 also has a structure such that it can be flexed flexibly, such as the pole 110 or the OLED 150.

Of course, the surface of the OLED 150 may be coated with a transparent material by replacing the OLED protective cover 160 made of a transparent plastic material as described above, or a transparent coated paper may be attached to the surface of the OLED 150, So that the protection member 150 can be protected.

The power switch 170 constituting the present invention is for turning on / off the illumination through on / off. The power switch 170 is connected to the pole 110 And the power supply of the OLED 150 is turned on / off. At this time, the power switch 170 is turned to the left or to the right to turn on / off the power.

In addition, as described above, the power switch 170 formed by a dial method is a structure capable of adjusting the light amount of the OLED 150. That is, when the power switch 170 of the dial type is turned to the maximum in one direction, the power source Off is turned off, and when the power is turned on while being turned in the other direction, the power amount of the OLED 150 gradually increases .

Of course, as described above, after the power is turned on in the direction of turning on the dial type power switch 170, the light amount of the OLED 150 is gradually increased by turning in the corresponding direction, The amount of light of the OLED 150 gradually decreases and is eventually turned off.

As described above, the USB port 180 constituting the present invention can utilize the electric energy stored on the battery 140 for the auxiliary battery. 4, a USB cable is connected to the USB port 180 on one side of the pole 110 to charge a cell phone, another lighting device, or an acoustic device through electrical energy stored on the battery 140 .

As described above, according to the present invention, the organic light emitting diode 150 and the solar cell 120, which are excellent in flexibility, are provided on the tenter pole 110, and the organic light emitting diode 150 The lighting can be performed without using a separate lamp, as well as the volume can be reduced during backpacking, and lighting can be transmitted to the inside and outside of the tent by lighting through the poles 110. [

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100. Pole for tent 110. Poles
120. Solar cell 130. Solar cell protection cover
140. Battery 150. OLED
160. OLED protection cover 170. Power switch
180. USB port

Claims (5)

A tent pole for supporting a tent stream to maintain a constant shape when installing the tent,
A pole formed to have a predetermined length by a bending material;
A transparent electrode using carbon nanotubes or graphenes, or a dye-sensitized flexible material, which converts light energy into electric energy, and is wrapped around the outer periphery of the pole so as to warp when the pole is warped A plurality of solar cells fixedly installed at regular intervals;
A solar cell protection cover formed of a transparent and flexible material and installed in a hollow form to surround the solar cell to protect the solar cell and to warp when the pole is warped;
A storage battery installed at one side of the pole for storing electric energy converted by the solar battery;
An OLED that is installed and fixed in a state of being wrapped around an outer circumferential surface of the pole so as to be bent together when the pole is bent and illuminates the inside and the outside of the tent by supplying electric energy stored in the battery;
A transparent or translucent material OLED protection cover which is provided on the outer circumferential surface of the OLED and is formed to warp when the pole is bent in the form of a hollow pipe to protect the OLED; And
A power switch installed on one side of the pole to turn on / off power of the OLED; The tent pole for lighting according to claim 1, The method according to claim 1,
And a USB port is provided at one side of the pole so as to utilize electrical energy stored in the battery as an auxiliary battery. The tent pole according to claim 1, wherein the power switch is configured in a dial manner to adjust the amount of light. The pole for a tent as set forth in claim 1, wherein the pole is in the form of a foldable pole used in a length-adjustable column type pole or dome-type tent used in a TP tent. delete

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