KR100243855B1 - The connecting structure of the coupling pipe for the aluminium pole using tent - Google Patents

Abstract

The present invention is designed to maintain a solid assembly state by the pressing action of the plurality of pressing projections formed in the insertion portion of the connection pipe, when inserted into the surface of the connection pipe coupled to one side of the pole is divided in the inlet direction of the pole After the insertion of the pole provides a connecting pipe coupling structure for the tent pole, characterized in that it has a plurality of pressing projections that are pressed and fixed to the inner surface of the pole by the wedge role.

Description

Connector structure of aluminum pole of tent

The present invention relates to a connecting pipe coupled to one side of the pole to connect a plurality of aluminum poles to form a frame of the tent, in particular, the pressing action of a plurality of small crimping protrusions formed by the kneading operation to the insertion portion of the connection pipe It relates to a joint structure of the aluminum pole of the tent can be maintained by the solid assembly state by.

The connection tube coupling structure made of aluminum coupled to a pole pole for a conventional tent is shown in FIGS. 12 and 13.

The coupling structure of the connection tube is configured to include a connection tube 1 coupled to one side of the pole table 2 and a punching groove 3 for fixing the connection tube 1 to the pole table 2. .

In the conventional structure of the structure as described above, a part of the connection pipe 1 is inserted into one side of the pole table 2, and then punched with a punch to take the engaging means by the punching groove 3.

However, the coupling means as described above is shaken because the connection pipe 1 is fixed depending on the two to four punching groove (3).

Therefore, the connection pipe 1 may be detached from the pole table 2 by the above-mentioned shaking, and there also existed a problem that it cannot fully exert dehydration force.

In addition, while the above-mentioned punching grooves 3 were punched, the paint applied to the poles 2 was peeled off, which also hindered the appearance of the poles 2.

In order to solve the problems of the related art as described above, a coupling means recently drawn is shown in FIGS. 14 and 15.

The coupling means is provided with a first elliptical portion 12 and a second elliptic portion 13 in the insertion portion of the connection pipe 11 coupled to one side of the pole table 14.

When the insertion part of the connection pipe 11 is press-fitted to the pole stand 14 by the structure as mentioned above, the 1st elliptical part 12 press-fits while making the shallow groove 15 in the inner surface of the pole stand 14, and is immediately followed by a 2nd The elliptical portion 13 is coupled to the deep groove 15 on the inner surface of the pole 14.

Coupling means as described above can prevent the shaking of the connection pipe 11 and there is no punching groove can make the appearance of the pole stand 14 beautiful and at the same time the paint is not peeled off, but the connection pipe 11 Press-fitting becomes very difficult.

That is, when the connection pipe 11 is forcibly pressed into the pole table 14 by the pressure of the press, the first elliptical portion 12 and the second elliptic portion 13 of the connection pipe 11 are connected to the pole table 14. Since the groove is inserted while digging into the inner surface, the outer diameter of the insertion portion of the pole 14 is also in a state of being stabbed into an oval shape.

Therefore, due to the strong pressure of the first elliptical portion 12 and the second elliptic portion 13 of the connection pipe 11, both sides of the pole 14 are blown off during the assembling process or easily blown when subjected to impulse during use. There is a problem such as.

In other words, the elliptical portions 12 and 13 formed in the connection pipe 11 should be formed slightly larger than the inner diameter of the pole 14, but due to the difference in the self-elastic coefficient of the connection pipes 11 during the press work. It was common to crush more or less than the design dimensions.

Therefore, when the elliptical portion 12, 13 is more distorted than the design dimension, as described above, both sides of the pole stand 14 is broken, and less less than the design dimension, so that less friction force is not generated. Even if it was acted on easily fall or had a problem such as going into the pole (14).

As described above, since the elliptical portions 12 and 13 become very difficult to be manufactured within the design dimension, the defects have been generated.

In addition, when the connection pipe 11 is completed to the inside of the pole pole 14, two places of the first elliptical portion 12 and two places of the second elliptic portion 13, that is, a total of four elliptical portions ( 12) (13) is in a state of being in point contact with the inner surface of the pole table 14, it can not be unstable coupling.

That is, since the elliptical portions 12 and 13 are coupled to each other by forcibly forming shallow grooves 15 and deep grooves 16 on the inner surface of the pole table 14, the elliptical portions 12 and 13 are stopped. If the position is slightly moved in the direction of the grooves 15 and 16 by an external impact or the like, the elliptical portions 12 and 13 can easily escape to the outside along the recessed grooves 15 and 16.

Therefore, it was weak to the shock as described above, and could not be firmly coupled, so a considerable amount of attention should be paid to use, and a lot of after-sales service had a problem.

In order to solve such a conventional problem, the present invention, by forming a plurality of small crimping projections by annealing on the aluminum connection pipe to be joined to the aluminum poles to maintain a firm coupling state by their pressing action It is possible to obtain a simple and good manufacturability and assemblability, and to provide a purpose to further improve the quality of the pole by preventing the connection pipe is not separated even in use.

1a, b is a view showing the configuration and operation of the present invention connecting tube.

2 is a perspective view showing an embodiment of the present invention.

Figure 3 is a partially cutaway cross-sectional view showing a combined state of the second invention of the present invention.

4 is a perspective view showing another embodiment of the present invention.

Figure 5 is a partially cutaway cross-sectional view showing a combined state of the fourth invention of the present invention.

6 is a perspective view showing another embodiment of the present invention.

Figure 7 is a partially cutaway cross-sectional view showing a combined state of the sixth invention of the present invention.

8 is a perspective view showing another embodiment of the present invention.

Figure 9 is a partially cutaway cross-sectional view showing a combined state of the eighth invention of the present invention.

10 is a perspective view showing another embodiment of the present invention.

Figure 11 is a partially cutaway cross-sectional view showing a combined state of the tenth invention of the present invention.

12 is a view showing a coupling configuration of a connection pipe coupled to a conventional pole.

Figure 13 is a partially cutaway cross-sectional view showing a combined state of the conventional FIG.

14 is a view showing a coupling configuration of another connecting pipe coupled to a conventional pole.

FIG. 15 is a plan sectional view showing a coupling part of the conventional FIG.

<Explanation of symbols for main parts of drawing>

101: connecting tube 102: crimping projection

102 pole 111 111 spiral

121: round 131: straight

141: oblique 151: reticulated

1 to 11 will be described in detail with reference to the configuration of the present invention.

When inserted into the surface of the aluminum connecting tube 101 coupled to one side of the pole pole 103 made of aluminum, it is laid in the inlet direction of the pole pole 103 and after insertion into the inner surface of the pole pole 103 by the wedge role. It is a configuration having a plurality of small pressing projections (102) produced by the kneading operation to be pressed fixed.

In addition, a plurality of small crimping protrusions 102 generated by the kneading operation were formed by arranging the spirals 111 on the surface of the connection pipe 101.

In addition, a plurality of small crimping protrusions 102 generated by the above-mentioned peeling work were provided by arranging circularly 121 on the surface of the connection pipe 101.

In addition, a plurality of small crimping protrusions 102 generated by the peeling operation were formed by arranging the straight pipes 131 on the surface of the connection pipe 101.

In addition, a plurality of small crimping protrusions 102 generated by the above-mentioned peeling work were arranged by arranging the diagonal lines 141 on the surface of the connection pipe 101.

In addition, a plurality of small crimping protrusions 102 generated by the above-mentioned nuling operation were provided by arranging the mesh 121 on the surface of the connection pipe 101.

The operation of the present invention thus described is as follows.

First, a plurality of small crimping protrusions 102 are formed on one side of the connecting tube 101 made of aluminum, and the crimping protrusion 102 has a sharp tool on the surface of the connecting tube 101 made of aluminum. By using a roller having a sharp projection on the outer circumferential surface or by forming a plurality of crimping projections 102 can be formed (nearing work).

That is, when the surface of the connection pipe 101 is scratched using the pointed tool or rollers, a plurality of small crimping protrusions 102 are formed on both sides of the groove while the grooves are formed on the surface of the connection pipe 101.

The small crimping protrusions 102 protrude higher than the outer surface of the connecting pipe 101 and have an insignificant pointed shape.

Therefore, when the connection tube 101 is coupled to the inner surface of the pole table 103 as shown in FIG. 1 (a), a plurality of small crimping protrusions 102 formed on the connection tube 101 are divided into the inner surface of the pole table 103. As shown in Figure 1 (b) it is an interference coupling.

As described above, the plurality of small pressing protrusions 102 forcibly coupled to each other press the inner surface of the pole table 103 while exerting self-elasticity in a lying state.

If the force (force for separating the connection pipe) is transmitted in the reverse direction in which the connection pipe 101 is inserted, the plurality of small crimping protrusions 102 formed in the connection pipe 101 may be used. Since the inner surface is elastically crimped, both ends in the direction in which the force is applied, so that the connection pipe 101 is not separated from the pole table 103.

Therefore, the connection pipe 101 is always maintained in a firm coupling state despite the external shock or vibration.

In addition, when the connection pipe 101 is coupled to the pole table 103, a press assembly or a worker may be struck with a hammer or a hammer to smoothly assemble the work.

In particular, the plurality of small crimping protrusions 102 formed on the connection pipe 101 are able to generate a lot of frictional force because there are a lot of points that are pressed against the inner surface of the pole table 103, so that the two sides as shown in FIG. It is possible to exert a much stronger bonding force than supported by the point and to prevent the sides of the pole 103 from bursting and the like.

In addition, since the plurality of small crimping protrusions 102 formed on the connection pipe 101 are subjected to a nuling process using a sharp tool or a roller, the number of processes can be reduced and a defective rate compared to those processed by a conventional mold. There is little to no advantage in terms of saving resources.

On the other hand, the small pressing projections 102 of the present invention can be used in the form of one or several lines in the spiral 111 on the surface of the connection pipe 101 as shown in FIG. 2 or on the circular 121 as shown in FIG. Even if one or several places are formed, the same purpose of the present invention can be obtained.

In addition, the small crimping protrusions 102 may be used by forming one to several places in a straight line 131 as shown in FIG. 6, and even if one to several places are formed in an oblique line 141 as shown in FIG. 8. The same object of the invention can be obtained.

In addition, even if the small pressing projections 102 are formed from one place to several places in the mesh type 151 as shown in FIG. 10, the same purpose of the present invention can be obtained.

That is, in forming the small crimping protrusions 102 as insertion portions of the connection pipe 101, the spiral 111, the circular shape (in consideration of the diameter and material of the connection pipe 101 and the pole 103), etc. 121, a straight line 131, oblique line 141, the mesh 151, etc. If the selective use of the rigid connection tube 101 can be obtained.

Thus, the present invention is very easy to manufacture by a plurality of crimping protrusions formed in the connection tube and can obtain a good assembly with the pole, and a solid bond can be obtained even after assembling a strong and excellent quality aluminum connection tube coupling It has a useful effect of obtaining the structure.

Claims (6)

When inserted into the surface of the aluminum connection pipe coupled to one side of the pole pole made of aluminum material, it is divided in the inlet direction of the pole pole and inserted into the pole surface by the wedge role. Joining structure of the aluminum pole of the tent characterized in that it has a small pressing projections. 2. The connecting tube joining structure of an aluminum pole pole according to claim 1, wherein a plurality of small crimping protrusions generated by the nuling operation are arranged in a spiral shape on the surface of the connecting tube. The connecting tube joining structure of an aluminum pole pole for tents according to claim 1, wherein a plurality of small crimping protrusions generated by the kneading operation are arranged in a circular shape on the surface of the connecting pipe. The tent pipe joint structure of claim 1, wherein a plurality of small crimp protrusions generated by the nuling operation are arranged in a straight line on the surface of the tube. 2. The connecting tube coupling structure according to claim 1, wherein a plurality of small crimping protrusions generated by the kneading operation are arranged in diagonal lines on the surface of the connecting tube. 2. The connecting tube joining structure of an aluminum pole pole according to claim 1, wherein a plurality of small crimping protrusions generated by the kneading operation are arranged in a mesh shape on the surface of the connecting tube.

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