KR200182871Y1 - Structure of pole for tent - Google Patents

Abstract

The present invention relates to tent poles, and in particular, the expansion part of the first pole is provided by a locking jaw which is integrally formed at the boundary between the expansion part and the expansion inclination part during molding by press-fitting the mold with the expansion part. The end of the second pole is inserted into the expansion tube inclined to prevent being pushed into the expansion inclination portion, the end of the second pole 105 inserted into the expansion portion 103 of the first pole 101, the expansion inclination portion In order to prevent the indentation into the 102, the expansion pipe 103 and the expansion pipe inclination 102 are integrally formed at the boundary between the expansion pipe 103 and the expansion pipe inclination 102 during molding by pressing the die 111. It provides a structure of a tent pole characterized in that it has a locking step 104 is formed into.

Description

Structure of pole for tent

The present invention relates to tent poles, and in particular, the expansion part of the first pole is provided by a locking jaw which is integrally formed at the boundary between the expansion part and the expansion inclination part during molding by press-fitting the mold with the expansion part. It relates to a structure of a tent pole for preventing the end of the second pole is inserted into the expansion inclined portion.

In general, the configuration of the pole to maintain the skeleton of the tent is shown in FIG.

The above configuration has a configuration in which the tip 3 is inserted into one side of the first pole 1 and then fixed by the punching groove 2.

That is, the second pole 101 is connected to the tip 3 fixed to the first pole 1 by the above configuration, and the third and fourth poles are continuously connected to the tip of the second pole. You can use it.

However, the first pole (1) has a problem that the tip (3) is essentially combined and the punching operation also needs to be carried out, which requires a lot of raw materials and heavy weight.

In order to solve the above problems, the pole shown in FIG.

The pole has a configuration in which one side of the first pole 11 extends and the other side has a shaft.

That is, when the shaft portion 13 of the first pole 11 is inserted into the expansion portion 16 of the second pole 14, the end of the shaft portion 13 is caught by the expansion tube inclination portion 15 and the expansion portion ( 16) the end is engaged while being caught by the shaft tube inclined portion (12).

However, since the tent pole is not used in a straight line but bent in a curved line, a lot of force is applied to the border portion of the expansion tube 16 and the expansion tube inclination portion 15 where the end of the shaft tube 13 is located. This takes

Therefore, there was a problem in that the contact portion between the expansion tube 16 and expansion tube inclination portion 15 is broken.

In addition, when the pole is severely impacted in the longitudinal direction, the end portions of the shaft tube portion 13 and the expansion tube 16 are press-fitted into the expansion tube inclination portion 15 and the shaft tube inclination portion 12, and the first pole 11 and There was also a problem that separation of the second pole 14 was difficult.

Invented to solve the above problems is a pole shown in FIG.

The pole is reinforced by inserting the reinforcing ring 21 into the shaft inclined portion 12 of the first pole 11 and between the expansion portion 16 and the expansion tube inclined portion 15 of the second pole 14. The stopper 22 is press-fitted to prevent the shaft tube portion 13 of the first pole 11 from being press-fitted into the expansion tube inclined portion 15.

However, the pole has a problem in that the reinforcement ring 21 and the stopper 22 to be manufactured separately, so that a separate manufacturing and assembly process is required and the weight is increased than the pole of FIG.

The purpose of this article to solve and complement these conventional problems,

By indenting a press-resistant structure that does not require extra parts such as reinforcing rings and stoppers inside the pole, it is possible to provide lightweight poles, obtain easy fabrication, and obtain excellent strength to prevent the poles from breaking. Serve the purpose of doing so.

In order to achieve the above object,

When the expansion pipe and expansion pipe slope of the pawl are formed by press-fitting of the mold, the locking jaw is integrally formed at the boundary between the expansion pipe and the expansion pipe slope to achieve the purpose of this paper.

1 is a cross-sectional view showing the structure and coupling state of a general tent pole

Figure 2 is a cross-sectional view showing the structure and coupling state of another general pole pole

Figure 3 is a cross-sectional view showing a structure and coupling state of a conventional pole pole

Figure 4 is a cross-sectional view showing the structure and the coupling state of the pole for this design tent

5 is a view showing a mold press-fitted into a pole to expand the pawl for the tent of the present design

Figure 6 is a view showing a state in which the locking jaw is formed simultaneously with the expansion of the pole for the tent of the present design

<Description of Signs of Main Parts in Drawings>

101: first pole 102: expansion slope

103: expansion tube 104: locking jaw

105: second pole 111: mold

112: indentation slope portion 113: flat portion

114: expansion tube

4 to 6 will be described in detail.

In order to prevent the end of the second pole 105 inserted into the expansion pipe 103 of the first pole 101 from being pushed into the expansion pipe slope 102, the expansion pipe 103 and the expansion pipe slope 102 are It is the structure provided with the latching jaw 104 integrally shape | molded at the boundary part between the expansion pipe 103 and the expansion pipe slant 102 at the time of shaping | molding by the press of the metal mold 111. As shown in FIG.

The operation of this paper is as follows.

First, in order to shape the expansion pipe 103 and the expansion pipe inclination part 102 on the first pole 101 of the present design, a mold 111 is required.

That is, the press fitting inclination part 112 and the planar part 113 are formed in the expansion pipe 114 of the said metal mold 111. As shown in FIG.

When the press-fitted inclined portion 112 of the mold 111 is forcibly pressed into one side of the first pole 101 as shown in FIGS. 5 to 6, the expanded-inclined portion 102 is formed by the press-fitted inclined portion 112. The expansion tube 103 is molded by the high expansion tube 114.

At this time, since the expansion pipe 114 is pushed into the first pole 101 to the plane portion 113 of the mold 111 and pushes the inner surface of the first pole, it is natural to the plane portion 113. The jaw 104 which is caught is molded.

Therefore, since the end of the second pole 105 is caught by the latching jaw 104 formed between the expansion pipe 103 and the expansion pipe slope 102 of the first pole 101 as described above, the impact transmitted to the pole is Even if it is strong, it does not intrude.

In addition, since there is no need for a separate part such as the reinforcement ring 21 and the stopper 22 of the conventional inside of the pole, it is possible to provide a light weight pole and obtain a simple manufacturability.

In addition, since the locking jaw 104 is formed at a position where the strength between the expansion pipe 103 and the wide inclination portion 102 is weak, excellent strength of the site can be obtained, thereby preventing the pole from being broken. do.

In addition, since the enlarged inclined portion 102 of the present invention is formed longer than the conventional enlarged inclined portion 15, the force distribution is wide and evenly spread, so that an excellent strength can be obtained.

In this way, this paper has a locking jaw which is integrally formed at the boundary between the expansion pipe and the expansion pipe inclination part by molding the expansion part of the pole and the expansion inclination part of the pole, such as a reinforcing ring and a stopper. By devising an indentation prevention structure that does not require a separate part, it is possible to provide a lightweight pole, obtain a simple production, and obtain an excellent strength, which has a useful effect of preventing the pole from breaking.

Claims (1)

In order to prevent the end of the second pole 105 inserted into the expansion pipe 103 of the first pole 101 from being pushed into the expansion pipe slope 102, the expansion pipe 103 and the expansion pipe slope 102 are A tent pawl structure comprising a locking jaw (104) integrally formed at the boundary between the expansion pipe (103) and the expansion pipe inclination portion (102) during molding by press-fitting the mold (111).