KR102242016B1 - Air pole - Google Patents

Abstract

The present invention discloses an improved air pole having a structure that maintains its shape while being expanded when air is injected, but has a structure that bears a load well and does not break easily by forming a plurality of reinforcing ribs radially.

Description

AIR POLE

The present invention relates to an air pole used in a tent, and more particularly, has a structure that maintains its shape while expanding when air is injected, but by forming a plurality of reinforcing ribs radially, it has a structure that withstands loads well and is not easily damaged. It relates to an improved airfall.

In general, tents are mobile houses in which users can enter the interior space and erosion, and are widely used for leisure.

These tents are installed in a way that a waterproof cloth is overlaid on the outside of the pole in a state in which metal poles are interconnected to have a certain internal space, or a waterproof cloth is made to have a certain internal space by combining a plurality of poles with the waterproof cloth. Will be installed.

However, such a conventional tent has a problem that it is not easy to assemble and takes a lot of time for installation because metal poles are connected to each other and a waterproof cloth is installed in order to maintain its shape. In addition, it is not easy to dismantle the tent, and transport and storage are not easy due to the weight and volume of the metal pole.

Recently, in order to solve the above problems, tents having an air pole have been developed. For example, Korean Utility Model Registration No. 20-0278430 discloses a tent in which a pole for forming a skeleton is made of an air tube, and an outer shell, that is, a waterproof cloth, is installed on the air tube.

However, since conventional air poles made of air tubes are easily deformed and damaged under pressure, when external pressure is applied while the tent is installed, wind blows strongly, or snow accumulates on the roof of the tent, the pole of the tent does not bear the load. There is a problem that the tent collapses due to failure.

1) Korean Patent Registration No. 10-1910249 (Registration Date: October 15, 2018), Invention Title: "Assembled Air Tube Pole for Tent" 2) Republic of Korea Patent Registration No. 10-1719424 (Registration date: March 17, 2017), Invention title: "Multi-functional connection air pole" 3) Korean Patent Registration No. 10-1279006 (Registration Date: June 20, 2013), Invention Title: "Air Tent" 4) Republic of Korea Utility Model Registration No. 20-0278430 (registration date: May 31, 2002), designation: "Tent with skeleton made of air tube"

The present invention has been proposed to improve the above-described problems, and its object is to be used as a pole of a tent by maintaining its shape while expanding when air is injected, but by forming a plurality of reinforcing ribs on the outer circumferential surface to reinforce the strength, it can withstand the load well. It is to provide an improved air pole to have a structure that is not easily damaged.

The above-described object is, in the air pole constituting the pole when manufacturing the tent, the pole body is formed in an arc shape, and an arc-shaped air injection space is formed in the interior in a lengthwise direction. It is configured to maintain the shape of the shape, and a part of the opening and closing means is installed so that air can be injected or discharged into the air injection space through the opening and closing means, and the outer circumferential surface has a reinforcing rib formed to protrude outward by being fused along the longitudinal direction. It is achieved by air poles, which are formed radially in several places and configured to reinforce external strength.

And the pole body is a first cloth member and a second cloth member made in the same arc shape to be overlapped with each other, and by high-frequency fusion in an arc shape along the upper and lower ends of the superimposed first and second cloth members. By sealing, an upper fusion part forming one of the reinforcing ribs is formed at the top by high frequency fusion, and a lower fusion part forming one of the reinforcing ribs is formed at the bottom by high frequency fusion. The air injection space is formed inside by high-frequency fusion of both ends of the second fabric member. After holding and folding both sides of the pole body, it is attached by high-frequency fusion in an arc shape along the folded left and right parts. Thus, it is characterized in that the left fusion portion forming one of the reinforcing ribs is formed on the left side by high-frequency fusion, and the right fusion portion forming one of the reinforcing ribs is formed on the right side by high-frequency fusion.

And after holding the diagonal part of the pole body and folding it, the diagonal fusion part is formed to form one of the reinforcing ribs by high-frequency fusion in the diagonal direction by high-frequency fusion in an arc shape along the folded diagonal part. It is characterized in that the diagonal fusion portion is formed in several places radially on the pole body to reinforce the strength.

Since the air pole according to the present invention reinforces strength by forming a plurality of reinforcing ribs on the outer circumferential surface, even if pressure is applied from the outside, such as wind or snow, there is an effect that it is not easily deformed or damaged.

Therefore, when the air polo tent according to the present invention is manufactured, the tent can be installed and dismantled quickly and easily because the tent is installed only with air injection, and the tent collapses even when the wind blows strongly or snow accumulates on the roof of the tent. There is an effect that does not occur.

1 is a perspective view showing an example of a tent to which an air pole according to the present invention is applied,
2 is a perspective view showing an air pole according to the present invention,
3 is a cross-sectional view showing an air pole according to the present invention,
4 is a process chart sequentially showing a method of manufacturing an air pole according to the present invention,
Figure 5 is a cross-sectional view showing another embodiment of the air pole according to the present invention.

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

Referring to FIG. 1, the air pole 100 according to the present invention constitutes a pole that forms a skeleton when manufacturing a tent, and is configured to maintain its shape while inflating when air is injected therein. That is, when manufacturing a tent, a plurality of air poles according to the present invention are arranged at predetermined intervals to form a skeleton, and a waterproof cloth 10 is connected between the air pole 100 and the air pole 100, and the front and The rear is blocked with a separate waterproof cloth 10 so that a space capable of erosion is formed inside. Of course, a part of the waterproof cloth 10 installed on the front side is configured to be cut to form an entrance.

When the air pole 100 according to the present invention is further described with reference to FIGS. 2 and 3, the entire pole body 110 is formed in an arc shape, and the air injection space 120 in an arc shape long along the length direction therein. ) Is formed, and when air is injected, it expands and maintains the shape of an arc.

In addition, a part of the pole body 110 is provided with an opening/closing means 140 and configured to inject or discharge air into the air injection space 120 through the opening/closing means. Here, since the opening and closing means 140 is a known technology, a detailed description will be omitted.

And reinforcing ribs 130 formed to protrude outward by fusion bonding along the longitudinal direction on the outer circumferential surface of the pole body 110 are radially formed in several places to reinforce the external strength. Here, the reinforcing rib 130 refers to all including an upper fusion part 132, a lower fusion part 134, a left fusion part 136, a right fusion part 138, and a diagonal fusion part 139 to be described later.

Referring to Figure 4 to describe the method of manufacturing the air pole 100 according to the present invention configured as described above, first, as shown in Figure 4 (a) to manufacture the pole body 110, the same arc as shown in Figure 4 (a). A first cloth member 112 and a second cloth member 114 made in a shape are provided and placed so as to be overlapped.

Here, the first fabric member 112 and the second fabric member 114 form a resin coating layer (C) by coating a poly-based resin on the existing woven fabric (F) for making a tent using an equipment called Tida. It is preferably manufactured in such a way as to. Therefore, when high-frequency fusion is performed, the resin coating layer (C) is surely attached to each other. Of course, the first cloth member 112 and the second cloth member 114 may use rubber-based or vinyl-based types in addition to the type in which the resin coating layer is formed on the woven cloth. That is, if it can be configured such that the reinforcing rib 130 protrudes from the outer circumferential surface of the pole body 110 by fusion bonding by high-frequency fusion, any can be applied.

Then, as shown in (b) and (c) of Fig. 4, the first fabric member 112 and the second fabric member 114 are superimposed by high frequency fusion in an arc shape along the upper and lower ends to be sealed. . Then, an upper fused portion 132 forming one of the reinforcing ribs is formed at the upper end, and a lower fused portion 134 forming one of the reinforcing ribs is formed at the lower end by high-frequency fusion. In addition, the air injection space 120 is formed inside by high-frequency fusion of both ends of the superimposed first cloth member 112 and the second cloth member 114 to be sealed.

In this state, hold both sides of the pole body 110 and fold the air injection space 120 so that a portion of the air injection space 120 is folded, followed by high-frequency fusion in an arc shape along the folded left and right portions to be attached. Then, as shown in (d) of FIG. 4, a left fusion part 136 is formed on the left side to form one of the reinforcing ribs by high-frequency fusion, and on the right side, a right fusion part is formed to form one of the reinforcing ribs by high-frequency fusion. A portion 138 is formed.

In this way, as shown in FIG. 3, fusion portions corresponding to the upper and lower portions and the left and right sides of the air injection space 120 are formed so that the cross-shaped reinforcing rib 130 protrudes. Therefore, since the reinforcing rib 130 holds a part of the air injection space 120, the overall rigidity of the pole body 110 is obtained. Of course, if the opening and closing means 140 is installed on a portion of the pole body 110, all manufacturing operations are completed.

In addition, in the present invention, the reinforcing rib 130 may be further formed in a diagonal direction as well as a cross shape as shown in FIG. 5 to reinforce the strength of the pole body 110 to become stronger.

At this time, the method of forming the reinforcing ribs 130 in the diagonal direction is to hold the diagonal portion of the pole body 110 and fold the air injection space 120 so that a portion of the air injection space 120 is folded. It can be attached by fusion bonding. Then, a diagonal fusion portion 139 forming one of the reinforcing ribs is formed by high-frequency fusion in a diagonal direction. Of course, such a diagonal fusion portion 139 is formed in several places radially on the pole body 110, but it is shown to be formed in four more places in the diagonal direction on the drawing, the number may be further increased.

On the other hand, the present invention provides antibacterial, deodorant and slip properties to the woven fabric (F) used when manufacturing the first fabric member 112 and the second fabric member 114 to enhance softness and reduce harm to the human body. For this, before forming the resin coating layer (C), it is preferable to immerse the woven fabric (F) in the yarn treatment solution for 30 minutes and then go through a step of drying again.

At this time, the yarn treatment liquid was 3% by weight of polyoxyalkylene triol, 10% by weight of oleamide, 4.5% by weight of isoquinoline alkaloid, 6% by weight of eremol, 2.5% by weight of glutaryl outlet race, and poly It consists of 3.5% by weight of oxyethylene hydrogen coaster ether and the rest of water.

Here, the polyoxyalkylene triol is added in order to increase binding force through increased crosslinking property, as well as function as a foaming agent, and to improve moisture-heat durability and impact resistance. In addition, the oleamide is added to enhance the slip property to enhance the lubricity and flexibility of the woven fabric, as well as to improve the uniform dispersibility of the impregnating solution during impregnation. In addition, the isoquinoline alkaloid is a natural antibacterial agent that enhances antibacterial properties and immunity. It is an extract extracted from the roots of Bitter Melon, Bitter Melon, and Barberry root, and is a natural antibacterial antibacterial agent against well-known fungi such as Salmonella as well as fungi. In addition, the elemol is added to achieve an air purification function by allowing a natural antibacterial function as well as a deodorizing effect and a subtle scent to be released. And, the glutaryl outlet race (Glutaral Concentrate) is added to remove toxicity. In addition, the polyoxyethylene hydrogenated coster ether is added to suppress volume expansion to maintain curing stability and numerical stability of the woven fabric.

In addition, it is preferable that the woven fabric (F) that has been subjected to the yarn treatment liquid as described above further performs a washing step to remove marks and foreign substances generated on the woven fabric before forming the resin coating layer (C). In this case, washing water of about 160° C. may be used to increase the effect of washing. Of course, maybe not.

In addition, a softener that softens the woven fabric (F) may be further added to the washing water. At this time, the softener may be added 40 parts by weight based on 100 parts by weight of washing water. In this case, the softener not only imparts flexibility to the woven fabric, but also removes the oil component remaining in the woven fabric, and in particular, is intended to implement electrostatic discharge characteristics and waterproof characteristics.

To this end, the softening agent isopropyl ether 3.5% by weight, methyl alcohol 5% by weight, hydroxyproline 6.5% by weight, methyl salicylate 5% by weight, glycol-2-ethylhexanol 2.5% by weight, It consists of 3.5% by weight of glyceryl monostearate, 4.5% by weight of acetum and the rest of the water-soluble silicone.

Here, the isopropyl ether (Iso-PropylEther) is added to increase stain resistance by forming a film on the surface of the woven fabric through a crosslinking function. In addition, the methyl alcohol is added to increase the flexibility and weather resistance of the woven fabric by removing oil remaining on the surface of the woven fabric. In addition, the hydroxyproline is added as a reineke salt in the gelatin hydrolyzate to further enhance the surface flexibility of the woven fabric. In addition, the methyl salicylate (Methyl Salicylate) is added to contribute to the softening of the woven fabric as a colorless liquid. In addition, the glycol-2-ethylhexanol is added to increase the treatment efficiency by suppressing the foamability of the softener. Further, the glyceryl monostearate is usually used as a food emulsifier, but in the present invention, it is added to contribute to antistatic properties and softening of the woven fabric according to the surfactant function. In addition, the acetum (Acetum), as a vegetable antistatic agent, is added to protect the woven fabric by antistatic properties. In addition, the water-soluble silicone is a base for protecting the woven fabric while improving waterproof properties.

When air is injected into the air injection space 120 through the opening/closing means 140, the air pole 100 manufactured as described above expands to form an arc-shaped pole. At this time, since the air pole according to the present invention has a plurality of reinforcing ribs 130 protruding from the outer circumferential surface of the pole body 110, the strength is reinforced so that even if external pressure such as wind or snow is applied, it is not easily deformed or damaged. Will not be. In addition, when the air injected into the air injection space 120 is removed, it can be easily folded to reduce the volume and stored. Therefore, when the tent is manufactured as shown in FIG. 1 by applying the air pole according to the present invention, installation and dismantling of the tent becomes very easy.

Of course, although not shown, a structure such as a dome of a green house may be manufactured using the air pole according to the present invention.

As described above, although the present invention has been illustrated and described in connection with specific embodiments, it is known in the art that various modifications and changes are possible without departing from the spirit and scope of the invention indicated by the claims. Anyone who grows up will be easily aware of it.

100: air pole 110: pole body
112: first cloth member 114: second cloth member
120: air injection space 130: reinforcing rib
132: upper fusion part 134: lower fusion part
136: left fusion part 138: right fusion part
139: diagonal fusion portion

Claims (4)

In the air pole constituting the pole when making a tent,
The pole body is formed in an arc shape, and an arc-shaped air injection space is formed in the lengthwise direction. When air is injected, it expands and maintains the arc shape.
Part of the opening and closing means is installed to be configured to inject or discharge air into the air injection space through the opening and closing means,
On the outer circumferential surface, reinforcing ribs formed to protrude outward by fusion bonding along the longitudinal direction are formed radially in several places to reinforce the external strength.
The pole body has a first cloth member and a second cloth member made in an arc shape identical to each other and overlapping each other,
The upper and lower ends of the superimposed first and second fabric members are subjected to high-frequency fusion in arc shape to seal, so that the upper fusion part is formed to form one of the reinforcing ribs by high-frequency fusion, and the lower part is high-frequency fusion. By forming a lower fusion part forming one of the reinforcing ribs,
By high-frequency fusion of both ends of the overlapped first fabric member and second fabric member to seal it, an air injection space is formed inside,
Hold both sides of the pole body, fold it, and attach it by high-frequency fusion in an arc shape along the left and right sides of the folded body.Therefore, a left fusion part is formed to form one of the reinforcing ribs by high-frequency fusion on the left side, Air pole, characterized in that manufactured to form a right fusion portion forming one of the reinforcing ribs by high frequency fusion.
delete The method of claim 1,
Hold the diagonal part of the pole body and fold it, and then attach it by high-frequency fusion long in an arc shape along the folded diagonal part, thereby forming a diagonal fusion part forming one of the reinforcing ribs by high-frequency fusion in the diagonal direction. Air pole, characterized in that the fusion portion is formed in several places radially on the pole body to reinforce strength.
The method of claim 1,
The first fabric member and the second fabric member are manufactured in a manner of forming a resin coating layer by coating a poly-based resin on an existing woven fabric for making a tent, and are configured to be attached to each other when high-frequency fusion is performed. Airfall.

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