KR101046483B1 - Fastening Structure of Perforated Tube - Google Patents

Abstract

The present invention provides a fastening structure for connecting a porous tube having a plurality of wiring holes formed therein, comprising: a flange protruding from both circumferential surfaces of the porous tube and having a trapezoidal cross section; A hemispherical fastening portion having a sufficient width to fix the two porous pipes connected in a longitudinal direction, a hinge pin connecting the pair of fastening portions so that the fastening portion completely surrounds the porous pipe, and the hinge pin The trapezoidal cross-sectional shape is formed on the inner peripheral surface of the coupling portion having a plurality of coupling holes formed at one end of the coupling portion so that the coupling portion which is opened and closed in a ring shape, and the flange of the porous tube can be inserted Consists of a coupling including a wedge groove of the groove, the flange is formed with a groove is formed in the longitudinal direction of the porous tube, the fastening portion is formed with a projection corresponding to the groove is connected by the coupling The wiring hole of the porous pipe is characterized by being aligned by the coupling of the groove and the protrusion. This porous tube fastening structure increases the coupling force of the porous tube and can match the wiring holes of different porous tubes.

Description

Joint structure of perforated pipes {JOINT STRUCTURE FOR PERFORATED PIPE}             

1 shows an example of a porous tube according to the present invention,

2 shows an example of a coupling according to the invention,

3 is a view illustrating a coupling method of the coupling and the porous tube illustrated in FIGS. 1 and 2, respectively.

Figure 4 shows a cross-sectional view of the pipe connected by the present invention,

FIG. 5 shows a plurality of porous tubes connected by the coupling shown in FIG. 1.

Description of the Related Art

100: porous pipe 110: wiring worker

120: flange 130: groove

200: coupling 210: fastening portion

220: hinge pin 230: junction

231: fastener 240: wedge groove

300: bolt 400: sealing member

The present invention relates to a fastening structure for connecting a porous tube, and more particularly to a fastening structure of a porous tube that can match the plurality of wiring holes formed in the porous tube as well as the fastening between the porous tubes.

With the widespread use of the Internet, optical cables are being used to transmit large amounts of information. These optical cables have different characteristics from copper cables for general landline phones. Therefore, the optical cable and the copper cable need to be separately buried and managed. Meanwhile, as the population and Internet users increase, the number of cables buried underground also increases. In reality, however, the space that can be used for cable laying is limited, and numerous cables are installed in one tube without distinguishing them. Therefore, when a cable problem occurs, it is difficult to select and repair the cable.

Due to such a problem, a porous tube in which various types of wiring holes are formed in one tube has recently been manufactured. The porous tube has a plurality of wiring holes therein so that various cables can be distinguished and installed, and a large amount of cables can be properly distributed and installed.

The important point in the use of such a porous tube is to install the wiring hole formed in the interior of the porous tube to match. However, in view of the above, no fasteners or fastening structures for firmly connecting the perforated pipes and the perforated pipes have been proposed. Therefore, the conventional porous tube fastening structure is weak to the external force and the waterproof and bonding strength is low, it is difficult to align the wiring hole. Therefore, in the conventional porous tube, the cable inside may be damaged due to the mismatch of wiring holes due to the torsion of the porous tube.

The present invention is to solve the problems as described above, the object of the present invention is to provide a fastening structure of the porous tube that can maximize the fastening force between the porous tube while easily matching the wiring hole inside the porous tube connection work.

According to an embodiment of the present invention, a fastening structure for connecting a porous tube having a plurality of wiring holes formed therein, comprising: a flange protruding from both ends of the circumferential surface of the porous tube and having a trapezoidal cross section; A hemispherical fastening portion having a sufficient width to fix the two porous pipes connected in a longitudinal direction, a hinge pin connecting the pair of fastening portions so that the fastening portion completely surrounds the porous pipe, and the hinge pin The trapezoidal cross-sectional shape is formed on the inner peripheral surface of the coupling portion having a plurality of coupling holes formed at one end of the coupling portion so that the coupling portion which is opened and closed in a ring shape, and the flange of the porous tube can be inserted Consists of a coupling including a wedge groove of the groove, the flange is formed with a groove is formed in the longitudinal direction of the porous tube, the fastening portion is formed with a projection corresponding to the groove is connected by the coupling The wiring hole of the porous tube is aligned by the combination of the groove and the projection of the porous tube A fastening structure is provided.

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

Figure 1 shows an example of a porous tube according to the present invention, Figure 2 shows an example of a coupling according to the present invention.

As shown in FIG. 1, the porous tube 100 of the present invention has a form in which a wiring hole 110 and a flange 120 are further provided in a general pipe, and a plurality of wiring holes 110 are formed inside the porous tube 100. ) Is formed and the flange 120 is formed on both ends of the circumferential surface. The cross section of the flange 120 is trapezoidal in order to improve the coupling force with the coupling 200 to be described later.

The wiring hole 110 has different diameters to effectively utilize the internal space of the porous tube 100. One side of the flange 120 is formed with a groove 130 in the longitudinal direction of the porous tube (100). The direction of the groove 130 formed in the flange 120 is the same in all the porous tube (100). Side of the porous tube 100 has a fitting groove 140 formed along the circumferential direction of the porous tube 100, the fitting groove 140 is a sealing member that can maximize the waterproofness of the connection portion of the porous tube 100 Is combined.

Coupling 200 for connecting the above porous tube 100 has a form that can be opened and closed based on the axis as shown in FIG. That is, two fastening portions 210 substantially surrounding the porous tube 100 are connected by the hinge pins 220 so that the fastening portion 210 can be opened and closed freely and completely wraps the porous tube 100. At each end of the fastening part 210, a joint part 230 protruding perpendicular to the circumferential surface of the fastening part 210 is provided, and a plurality of fastening holes 231 are formed in the joint part 230. The fastening holes 231 formed at each junction 230 are matched with each other and are coupled to each other through the bolt 300. Therefore, the fastening part 210 which can be opened and closed by the hinge pin 220 is completely fixedly coupled by the bolt 300 connecting the joint part 230.

The inner surface of the fastening portion 210 is formed with two rows of wedge grooves 240. The wedge groove 240 is a space for fixing the flange 120 of the upper perforated pipe 100, the cross section of the wedge groove 240 is trapezoidal shape that narrows as it deepens. Meanwhile, one of the two fastening parts 210 is provided with a protrusion 250 corresponding to the groove 130 of the porous pipe 100.

Figure 3 shows the coupling method of the coupling and the porous tube shown in Figures 1 and 2, respectively, Figure 4 shows a cross-sectional view of the tube connected by the present invention, Figure 4 is a coupling shown in Figure 1 It shows a plurality of porous pipes connected by.

As shown in FIG. 3, the porous pipe 100 lying in a straight line is fixedly connected by the coupling 200. The sealing member 400 is inserted between the porous tube 100 and the porous tube 100 to increase the airtightness between the porous tubes 100, and the coupling 200 is coupled to the outside of the porous tube 100. Raise the bond between the missions (100).

The coupling 200 connects two different porous pipes 100 in a straight line through the flange 120 protruding from the porous pipe 100, and the wiring hole 110 of the porous pipe 100 is connected. Align the porous tube 100 to match. At this time, the alignment method of the porous tube 100 is made by the protrusion 250 formed in the coupling 200, the principle is as follows.                     

A wedge groove 240 is formed in the fastening portion 210 of the coupling 200, and a protrusion 250 protruding inward is formed in one portion of the fastening portion 210. Therefore, when the coupling 200 is coupled while wrapping the outside of the porous tube 100, the protrusion 250 of the fastening part 210 may be fully engaged with the groove 130 of the flange 120 to be properly coupled. . Therefore, the two different porous pipes 100 are naturally matched with the positions of the wiring holes 110 through the coupling of the groove 130 and the protrusion 250. Therefore, in the present invention, the problem that the wiring hole 110 formed in the porous tube 100 is distorted does not occur. On the other hand, the groove 130 and the protrusion 250 is preferably formed in a trapezoidal shape to maximize the contact area.

Another feature of the present invention is that as the coupling 200 tightens the outside of the porous tube 100, the tightening force of the connected porous tube 100 is increased.

As shown in FIG. 4, the two rows of wedge grooves 240 formed inside the flange 120 and the coupling 200 have a trapezoidal shape. Therefore, the contact area between the coupling 200 and the flange 120 surrounding the porous tube 100 on the outside is increased. That is, if the shape of the flange 120 is simply a rectangular shape, the portion that can be substantially pressed by the coupling 200 is limited to the end of the flange 120. However, if the cross-sectional shape of the flange 120 and the wedge groove 240 is trapezoidal as in the present invention, the pressure of the coupling 200 is also transmitted through the inclined surface of the flange 120. Therefore, according to the fastening structure of the present invention, the fastening force between the coupling 200 and the porous tube 100 is increased so that separation or twisting of the porous tube 100 hardly occurs. In addition, since the sealing member 400 is coupled to the fitting groove 140 of the porous tube 100, even if the contact surface of the porous tube 100 is not uniform, the airtightness of the connection portion of the porous tube 100 may be maintained.

As such, the present invention has the advantage of fastening a few bolts to the joint 230 provided on one side of the coupling 200 and maintaining the connection of the porous tube 100 perfectly, as shown in FIG. 5. It is very efficient to connect a plurality of porous pipes 100 in series.

The present invention can increase the bonding force of the porous tube and the wiring holes of different porous tubes can be matched to each other.

Although the technical idea of the fastening structure of the porous pipe has been described above with the accompanying drawings, this is for illustrative purposes only and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (4)

delete As a fastening structure for connecting a porous tube formed with a plurality of wiring holes therein, A flange protruding from both circumferential surfaces of the porous tube and having a trapezoidal cross section; A hemispherical fastening portion having a sufficient width to fix the two porous pipes connected in a longitudinal direction, a hinge pin connecting the pair of fastening portions so that the fastening portion completely surrounds the porous pipe, and the hinge pin The trapezoidal cross-sectional shape is formed on the inner peripheral surface of the coupling portion having a plurality of coupling holes formed at one end of the coupling portion so that the coupling portion which is opened and closed in a ring shape, and the flange of the porous tube can be inserted Made of a coupling comprising a wedge of The flange is formed with a groove that is dug in the longitudinal direction of the porous tube, the fastening portion is formed with a projection corresponding to the groove, the wiring hole of the porous tube connected by the coupling of the groove and the projection Fastening structure of the porous tube, characterized in that aligned by the coupling. The fastening structure of a porous pipe according to claim 2, wherein the groove and the cross section of the protrusion are trapezoidal so as to increase contact friction. The fastening structure of a porous tube according to claim 2, wherein a fitting groove is formed at an end of the porous tube so that a sealing member installed for water leakage and waterproofing can be easily coupled.

Images