WO2016056771A1

WO2016056771A1 - Tent capable of preventing dewing

Info

Publication number: WO2016056771A1
Application number: PCT/KR2015/009865
Authority: WO
Inventors: 서정노
Original assignee: 서정노
Priority date: 2014-10-06
Filing date: 2015-09-21
Publication date: 2016-04-14
Also published as: KR200476394Y1

Abstract

A tent capable of preventing dewing is disclosed. The disclosed tent, which can prevent dewing, comprises an inner tent and a fly for covering the inner tent, and is characterized in that the inner tent comprises a first raw fabric layer, which is made of polyester or nylon, a moisture-transmitting/waterproof layer, which is formed on a surface of the first raw fabric layer, and a first mesh layer, which is formed on a surface of the moisture-transmitting/waterproof layer, and the fly comprises a second raw fabric layer, which is made of polyester or nylon, a waterproof layer, which is formed on a surface of the second raw fabric layer, and a second mesh layer, which is formed on a surface of the waterproof layer.

Description

Tent to prevent condensation

The present invention relates to a tent, and more particularly to a tent that can prevent condensation.

Recently, the camping population is growing exponentially as modern people expand their leisure life. Camping usually adds to the enjoyment of camping by putting up tents and staying in tents.

A tent is usually composed of an inner tent and a ply covering the inner tent to prevent the inner tent from sunlight, rain and wind. There are two types of plies: the inner tent is wrapped directly, the prop is struck with the prop and the parasol is formed.

Such a conventional tent occurs when condensation occurs when water drops are formed when sleeping and reading during fishing and camping. This marriage is especially severe in winter.

Therefore, in recent years, the development of technology for preventing the condensation of the tent is actively made.

The present invention was devised to solve the conventional problems as described above, and has an object to provide a tent that can prevent condensation.

In order to achieve the above object, the tent prevents condensation of the present invention is a tent consisting of an inner tent and a ply covering the inner tent, the inner tent, the first fabric layer made of polyester or nylon; A moisture-permeable waterproof layer formed on one surface of the first fabric layer; And a first mesh layer formed on one surface of the moisture-permeable waterproof layer, wherein the ply includes: a second fabric layer made of polyester or nylon; A waterproof layer formed on one surface of the second fabric layer; And a second mesh layer formed on one surface of the waterproof layer.

The moisture-permeable waterproof layer is formed by coating a resin having a waterproof moisture-permeable function on the first fabric layer, or by laminating a film having a waterproof moisture-permeable function on the first fabric layer, the waterproof layer is waterproof to the second fabric layer. It may be formed by coating a resin having only a function, or by laminating a film having only a waterproof function to the second fabric layer.

The waterproof layer may be formed by coating a resin having only a waterproof function on the second fabric layer and coating a resin having a waterproof moisture permeable function thereon.

The first mesh layer is formed by combining NTR (Nylon Tricot), PTR (Poly Tricot) or glass material with the moisture-permeable waterproof layer, and the second mesh layer is NTR (Nylon Tricot), PTR (Poly Tricot) or The material may be configured to be formed by being combined with the waterproof layer.

Supported in a standing state on the ground, the ply is fixed to the upper end; And a photovoltaic kit detachably coupled to the top of the support and producing electricity from sunlight, wherein the photovoltaic kit comprises: a coupling rod detachably screwed to the support; A solar panel hingedly installed on an upper end of the coupling rod; A solenoid one end of which is fixed to the coupling rod so as to connect the coupling rod and the solar panel, the other end of which is hinged to one side of the solar panel, and rotates at a predetermined angle of the solar panel according to a stretching action; A battery that is installed inside the support and is charged with electricity generated by the solar panel; The solar panel is installed inside the support and charges the electricity generated from the solar panel to the battery, and the timer is provided so that the solar panel is driven at right angles to the direction of sunlight so that the amount of electricity generated by the solar panel is maximized for each time period. Control unit for controlling the; And an outlet fixed to one side of the support outer circumferential surface and installed to be electrically connected to the battery and connected to a plug of an external electronic device.

As such, the tent of the present invention is composed of an inner tent and a 3-layer material that is waterproof and moisture-permeable, and is composed of a 3-layer material that is waterproof only with a ply, thereby preventing condensation on the inner tent and the ply. It is effective to entertain camping.

In addition, the present invention has the effect of assembling the photovoltaic power generation kit on the shore as needed, by self-powering itself through the sunlight to produce power easily when camping.

1 is a perspective view showing a tent according to a first embodiment of the present invention,

FIG. 2 is a front view of the tent shown in FIG. 1,

3 is a view showing the main portion of the tent according to a second embodiment of the present invention,

FIG. 4 is a view illustrating a state in which some components are separated from each other and a structure inside the post,

5 is a block diagram showing a control state of the tent according to the second embodiment of the present invention.

The objects, features, and advantages of the present invention will be readily understood through the following preferred embodiments associated with the accompanying drawings. However, it will be well understood by those skilled in the art through the embodiments described below that the present invention is not limited to the embodiments described herein and may be embodied in other forms.

In describing the following specific embodiments, various specific details are set forth in order to more specifically explain and to help understand the invention. In addition, it is mentioned in advance that parts of the invention that are not well known in describing the invention are not described in order to prevent confusion in describing the invention.

Hereinafter, a tent according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 2.

The tent of the present invention is composed of an inner tent 20 and a ply 10 covering the inner tent 20.

The inner tent 20 may be mounted to the tent pole pole 21 as shown in FIG. 1 to form a tent.

The ply 10 is a screen covering the inner tent 20 to prevent the inner tent 20 from sunlight or especially rain, and stands on the support 11 as shown in the drawing, and the ply 10 is placed on the support 11. ) May be installed in the form of a tarp, but is not limited thereto, and may be a typical fly form in which the ply 10 is installed to closely wrap the inner tent 20 without a support. It may also be in the form of a parasol.

Reference numeral 15 denotes an anchoring line for pulling and fixing the bottom of the ply 10 to the ground.

The structure of the inner tent 20 and the ply 10 described above is the same as the conventional inner tent and ply, the feature of the present invention lies in the material of the inner tent 20 and the ply 10.

Hereinafter, the material of the inner tent 20 and the ply 10 which is a feature of the present invention will be described.

The inner tent 20 of the present invention has a fabric 20a made of polyester or nylon, a moisture-permeable waterproof layer 20b formed on one surface of the fabric 20a, and the moisture-permeable waterproof layer 20b. It includes a mesh layer 20c formed on one surface of the.

Inner tent 20 is coated with a resin (resin) having a water-permeable waterproof function, for example, a polyurethane (pu, polyurethane) having a water-permeable waterproof function on the fabric (20a) to form a water-permeable waterproof layer (20b), this moisture-permeable On the waterproof layer 20b, a mesh layer made of NTR (Nylon Tricot), PTR (Polyester Tricot), or glass is combined to form a mesh layer 20c to have a 3-layer shape. Here, the mesh fabric may be defined as a back fabric formed on the back side of the moisture barrier layer 20b.

On the other hand, the moisture-permeable waterproof layer 20b may be formed by coating a resin having only a waterproof function on the fabric 20a, or may be formed by laminating a synthetic resin film having only a waterproof function on the fabric 20a.

The ply 10 is formed of a fabric 10a made of polyester or nylon, a water vapor barrier 10b formed on one surface of the fabric 10a, and formed on one surface of the water vapor barrier 10b. The mesh layer 10c is included.

Ply 10 is coated with a resin (Resin) having only a waterproof function, for example, a polyurethane (pu, polyurethane) having only a waterproof function to the fabric (10a) to form a waterproof layer (10b), on the waterproof layer (10b) NTR (Nylon Tricot), PTR (Polyester Tricot), or glass mesh fabric by combining the mesh layer (10c) to form a three-layer form. At this time, the material of the ply 10 of the present invention preferably has a water pressure of 1500MM or more.

Meanwhile, the waterproof layer 10b may be formed by coating a resin having only a waterproof function on the fabric 10a, or may be formed by laminating a synthetic resin film having only a waterproof function on the fabric 10a.

As described above, the tent of the present invention is a material in which the inner tent 20 is waterproof and moisture permeable, so that moisture can be discharged to the outside due to good moisture permeability, thereby effectively preventing condensation. In this case, when moisture is absorbed into the material of the inner tent 20, a swelling phenomenon in which the moisture absorbed portion is bulged may occur, but when the moisture disappears, the swelling phenomenon is automatically eliminated.

More specifically, the inner tent 20 absorbs moisture from the mesh layer 20c by incorporating a mesh fabric made of NTR (Nylon Tricot), PTR (Polyester Tricot), or glass inside the tent, and furthermore, Condensation may also be suppressed by absorbing moisture in 20b), and moisture absorbed in the mesh layer 20c and the moisture-permeable waterproof layer 20b may be released to the outside by sunlight or wind and removed.

In addition, the ply 10 of the present invention is made of a material that is waterproof only without moisture permeability. When the fly 10 that prevents the inner tent 20 from rain and wind is formed of a moisture-permeable waterproof layer 20b such that the inner tent 20 is waterproof, the moisture inside the rain The external moisture (rain water) is absorbed by both sides of the moisture-permeable waterproof layer 20b, so that moisture is excessively absorbed by the moisture-permeable waterproof layer 20b, thereby losing its function.

That is, the moisture-permeable waterproof layer 20b temporarily absorbs water and discharges it to the outside, so that external moisture can also be absorbed. When the fly 10 is formed with the moisture-permeable waterproof layer 20b, the external dew or the like directly during camping When exposed to rain water, but may be adversely affected by absorbing moisture, ply 10 of the present invention due to the waterproof layer (10b) having only a waterproof function, showing no waterproof function, only waterproof, external rain or moisture is a waterproof layer It is completely blocked by 10b, and the moisture inside is absorbed by the mesh layer 10c, so that condensation can be prevented from occurring.

On the other hand, in the above, the waterproof layer 10b of the ply 10 has been described as coating the resin having a waterproof function only on the fabric (10a), but this is not limited, coating the resin having a waterproof function only on the fabric (10a) Then, it can be formed by coating a resin having a waterproof moisture permeable thereon again.

In this case, the external rain water or moisture is completely blocked by the resin having only waterproof function, and the internal moisture can be absorbed by the resin having waterproof waterproof function as well as the mesh layer 10c, thereby further preventing condensation. .

Hereinafter, a tent according to a second embodiment of the present invention will be described with reference to FIGS. 3 to 5.

The tent of the second embodiment differs only in that the photovoltaic kit is further configured as compared to the first embodiment, and the same is true for the remaining configurations. That is, the second embodiment is formed of a 3-layer material in which the inner tent 20 and the ply 10 are the same as the first embodiment, and the inner tent 20 is waterproof and moisture-permeable, and the ply 10 is waterproof. Not only is it a feature of preventing the formation of condensation by forming a three-layer material, the only difference is that it is further provided with a photovoltaic power generation kit that is added separately to generate electricity from sunlight. Therefore, in the following description, the same configuration as in the first embodiment will be omitted and only the differences will be described.

The tent of the second embodiment further includes an inner tent 20, a ply 10, and a photovoltaic kit 30.

The photovoltaic kit 30 includes a coupling rod 31, a solar panel 33, a solenoid 34, a battery 38, a controller 37, and an outlet 39.

The coupling rod 31 is formed in the shape of a rod having the same diameter as that of the support 11, and is detachably coupled to the upper end of the support 11 by screwing. Specifically, the male screw thread 31a is formed at the lower end of the coupling rod 31, and the female screw thread 11a is formed at the upper end of the support 11, so that the male thread thread 31a is screwed to the female screw thread 11a. The coupling rod 31 may be coupled to the support 11.

At this time, the lower end of the male thread 31a to electrically connect the configuration of the control unit 37 built in the solar panel 33 and the support 11 by the coupling rod 31 and the support 11 is coupled. The first connection terminal 35a is formed in the second connection terminal 35b, and the first connection terminal 35a is electrically connected to the solar panel 33 at the inner bottom of the female thread 11a. The second connection terminal 35b is configured to be electrically connected to the control unit 37.

Therefore, when the coupling rod 31 is screwed on the upper end of the support 11, the first connecting terminal 35a and the second connecting terminal 35b are in contact with each other, the solar panel 33 and the control unit 37 When the coupling rod 31 is easily electrically connected and separated from the support 11, the first connection terminal 35a and the second connection terminal 35b are separated, and the electrical connection is short-circuited.

The solar panel 33 is formed in a plate shape, and is made of a conventional solar panel. The solar panel 33 is rotatably installed by a hinge h on the upper end of the coupling rod 31.

The solenoid 34 is fixed to one end of the coupling rod 31, the other end is hingedly coupled to one side of the solar panel (33). The solenoid 34 is a structure in which the length is stretchable and driven by electrical control like a conventional solenoid. In the present invention, the solenoid 34 is stretched and controlled by the control of the control unit 37 to rotate the solar cell wave 33 at a predetermined angle. Drive means.

The battery 38 is formed in a stick shape and is formed to be embedded in the pillar 11, and the electricity produced by the solar panel 33 is charged.

The control unit 37 is installed to be embedded in the support 11, is electrically connected to the battery 38, and the coupling rod 31 is coupled to the support 11, so that the first connection terminal 35a and the second are connected. The contact terminal 35b is in contact with the solar panel 33 is electrically connected.

The controller 37 may include a charging circuit for converting the electricity generated from the solar panel 33 into a proper voltage in a form chargeable to the battery 38 to charge the battery 38, and the controller 37. The solar panel 33 rotates the solar panel 33 at a predetermined angle by controlling the solenoid 34 so as to increase the electrical generation rate of the solar panel 33 by having a timer so that the solar light and the solar panel 33 are perpendicular to the time. .

The outlet 39 is fixedly installed on the outer circumferential side of the support 11, and electrically connected to the battery 38, and the user connects a plug of an external electronic device to the outlet 39 to charge the battery 38. To charge external electronics (phones, radios, etc.).

As such, the tent of the present invention not only prevents condensation as described in the first embodiment due to the material of the inner tent 20 and the ply 10, but also supports the photovoltaic power generation to the support 11 as necessary. By assembling the kit 30, there is a convenience that can be used to produce power by itself when camping by self-generation.

The invention has been shown and described in connection with the preferred embodiments for illustrating the principles of the invention, but the invention is not limited to the configuration and operation as shown and described. Rather, those skilled in the art will appreciate that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes, modifications, and equivalents should be considered to be within the scope of the present invention.

The present invention relates to a tent, it can be used in the camping equipment industry.

Claims

In the tent consisting of an inner tent and a ply covering the inner tent,

The inner tent,

A first fabric layer made of polyester or nylon;

A moisture-permeable waterproof layer formed on one surface of the first fabric layer; And,

It includes; a first mesh layer formed on one surface of the water vapor barrier;

The fly,

A second fabric layer made of polyester or nylon;

A waterproof layer formed on one surface of the second fabric layer; And,

And a second mesh layer formed on one surface of the waterproof layer.
The method of claim 1,

The moisture-permeable waterproof layer is formed by coating a resin having a waterproof moisture-permeable function on the first fabric layer, or by laminating a film having a waterproof moisture-permeable function on the first fabric layer,

The waterproof layer is formed by coating a resin having only a waterproof function on the second fabric layer, or a tent formed by laminating a film having only a waterproof function on the second fabric layer.
The method of claim 2,

The tent is characterized in that the waterproof layer is formed by coating a resin having only a waterproof function on the second fabric layer and coating a resin having a waterproof moisture permeable function thereon.
The method of claim 2,

The first mesh layer is formed by combining NTR (Nylon Tricot), PTR (Poly Tricot) or glass material with the moisture barrier layer,

The second mesh layer is a tent, characterized in that formed by combining the NTR (Nylon Tricot), PTR (Poly Tricot) or glass material with the waterproof layer.
The method of claim 4, wherein

Supported in a standing state on the ground, the ply is fixed to the upper end; And,

It is detachably coupled to the upper end to the support, and further comprising a photovoltaic power generation kit for producing electricity from sunlight;

The solar power kit,

A coupling rod detachably screwed to the support;

A solar panel hingedly installed on an upper end of the coupling rod;

A solenoid one end of which is fixed to the coupling rod so as to connect the coupling rod and the solar panel, the other end of which is hinged to one side of the solar panel, and rotates at a predetermined angle of the solar panel according to a stretching action;

A battery that is installed inside the support and is charged with electricity generated by the solar panel;

The solar panel is installed inside the support and charges the electricity generated from the solar panel to the battery, and the timer is provided so that the solar panel is driven at right angles to the direction of sunlight so that the amount of electricity generated by the solar panel is maximized for each time period. Control unit for controlling the; And,

And a receptacle fixed to one side of the support outer circumferential surface and installed to be electrically connected to the battery and connected to a plug of an external electronic device.