KR20210013796A - Method for installing road inlet line for subscriber line - Google Patents

Abstract

The present invention relates to a method for installing a road lead-in pipe for a subscriber pipe to efficiently install a road lead-in communication pipe from an electric pole or provider user communication manhole, wherein a provider exchange facility is installed, to a building lead-in pipe or building user communication manhole installed by a building owner. According to the present invention, the method comprises: (S1) a horizontal drilling device installation step of installing a horizontal drilling device (10) inside the user communication manhole (1); (S2) a cylindrical pit excavation step of using a cylindrical drill device to form a cylindrical pit (10) down to a required depth on a side surface of a lead-in pole (A); (S3) a horizontal drilling device advancing step of using the horizontal drilling device to horizontally perform drilling from the user communication manhole to the cylindrical pit; (S4) a lead-in pipe fixing step of fixing one end of the lead-in (20) to the front end of the horizontal drilling device reaching the cylindrical pit excavated on the side surface of the lead-in pole; (S5) a horizontal drilling device backward step of reversing the front end of the horizontal drilling device to the user communication manhole to embed one end of the lead-in pipe in a state of extending to the user communication manhole; and (S6) a finishing step of fixing the other end of the lead-in pipe to the upper side of the lead-in pole and filling and restoring the cylindrical pit.

Description

Method for installing road inlet line for subscriber line {Method for installing road inlet line for subscriber line}

The present invention is a method of laying a road inlet pipe for a subscriber line that allows the operator to easily bury the operator inlet piping from the user's communication manhole to the inlet pole in the case where the operator inlet pipe is not buried in the path from the user's communication manhole to the inlet pole It is about.

In general, the subscriber line belongs to the terminal of the operator's communication line and must be connected at the user's communication line, the premises line and the trunk line terminal box.

In general, the client installs a trunk line terminal box, a user communication manhole, and a user input pipe inside the site boundary line in accordance with the regulations on the technical standards of broadcasting and communication facilities.

1 is a diagram showing the relationship between the user's communication manhole (1), the trunk line terminal box (2), and the inlet pipe (3) in the regulation on the technical standards of broadcasting and communication facilities, as shown, in the inlet pole (A). Between the user's communication manhole (1), the operator inlet pipe (3) is installed, and the trunk line (5) is connected between the communication manhole (1) and the trunk line terminal box (2).

The operator lead-in pipe 3 is obligated to be installed by broadcasting and communication service providers. Nevertheless, there were many cases where the operator's lead-in pipe (3) was not properly buried. The reason for this was that none of the broadcasters and broadcasters referred to as local wired broadcasters had fulfilled their obligations to install the operator inlet pipe (3).

As a result, the public line installed by broadcasting and communication service providers was not able to enter the inlet pipe (3) buried in the basement, and in many cases entered the interior through the window of the building through the distributor installed on the outer wall of the building or the roof of the building. .

As a result, the surroundings and alleys of buildings have become cluttered with communication lines of broadcasting and communication service providers, and civil complaints have been frequent, and since 2013, a nationwide aerial maintenance work has been carried out.

However, the maintenance work of such an aerial has a problem in that communication lines are scattered again after a certain period of time. The reason is that due to the nature of the construction of the operator's lead-in piping (3) connecting underground from the lead-in pole (A) to the user's communication manhole (1), the pavement must be continuously cut, so the construction is difficult and takes a long time, and the buried route This is because there are many cases in which the traffic of vehicles is along frequent roads, and various problems such as the need to block the traffic of vehicles for a long time have not been fundamentally solved.

The present invention has been conceived to solve the above problems, and an object of the present invention is to provide a method of buriing an inlet pipe for communication that allows the operator to easily bury an inlet pipe from a user's communication manhole to the inlet pole.

In order to achieve the above object, the method of installing a road entry pipe for a subscriber line of the present invention includes the installation step of a horizontal drilling device for installing a horizontal drilling device inside a user communication manhole, and the side of the entry pole using a cylindrical drill device. The excavation step of a cylindrical pit to form a cylindrical pit to the depth required for the operation, a horizontal drilling device advancing step of horizontally drilling from the user communication manhole to the cylindrical pit using the horizontal drilling device, and a cylindrical excavated on the side of the retractable column The inflow pipe fixing step of fixing one end of the inflow pipe to the tip of the horizontal drilling device that has reached the pit, and the tip of the horizontal drilling device is retracted to the user's communication manhole, and the end of the inflow pipe extends to the user's communication manhole. And a finishing step of fixing the other end of the lead-in pipe to the upper side of the lead-in electric pole, and filling the cylindrical pit to restore it.

The present invention constructed as described above has the effect of minimizing the amount of excavation and restoration work required for the burial of the lead pipe in the path from the user's communication manhole to the lead pole, thereby enabling the operator to conveniently perform the construction of the lead pipe. .

1 is a diagram showing the mutual relationship between a user's communication manhole, a trunk line terminal box, and an underground entry pipe in a regulation on the technical standards of broadcasting and communication facilities.
2 is a block diagram sequentially showing a method of installing a road entry pipe for a subscriber line according to the present invention.
3 is a view showing a road inlet pipe buried path when the inlet pole is installed adjacent to the same roadway as the user's communication manhole according to the present invention.
Figure 4 is a view showing a road inlet pipe reclamation path when the inlet pole is installed with a user communication manhole and a road in between according to the present invention.
5A and 5B are cross-sectional views sequentially showing a method of installing a road entry pipe for a subscriber line according to the present invention.
6 is a cross-sectional view of a road inlet pipe constituting the present invention.
7 is a view showing a road inlet pipe buried path when the inlet pole is installed at an angle with a user communication manhole and a road in between according to another embodiment of the present invention.
8 is a view showing a road inlet pipe buried path when the inlet pole is installed obliquely on the same roadway as the user's communication manhole according to another embodiment of the present invention.
9 is a view showing a road inlet pipe buried path when the inlet pole is installed obliquely on the same roadway as the user's communication manhole and on the opposite roadway according to another embodiment of the present invention.
10 is a cross-sectional view showing a state in which a connection pipe is buried to be connected between user manholes according to another embodiment of the present invention
11 is a plan view showing a state in which connection pipes are buried so as to be connected between user manholes according to another embodiment of the present invention
12 is a photograph showing that the outer pipe of the road inlet pipe used in the present invention is formed of a corrugated pipe to facilitate bending

Features and advantages of the present invention will become more apparent from the detailed description of the following preferred embodiments based on the accompanying drawings. Prior to this, terms or words used in the present specification and claims are based on the principle that the inventor can appropriately define the concept of terms in order to describe his or her invention in the best way. It must be interpreted as a corresponding meaning and concept.

Hereinafter, in describing an embodiment of the present invention in detail with reference to the drawings, the same reference numerals are used for the same configuration, and only different parts will be mainly described so as not to overlap as possible for clarity.

As shown in Figure 2, the installation method of the road inlet pipe for a subscriber line of the present invention includes the installation step (S1) of the horizontal drilling device, the excavation step (S2) of the cylindrical pit, and the horizontal from the user communication manhole to the cylindrical pit. It includes a drilling device advancing step (S3), an incoming pipe fixing step (S4), a horizontal drilling device retracting step (S5), and a finishing step (S6) of filling a cylindrical pit.

3 is a view showing a road inlet pipe buried path 4 using a cylindrical pit 10 when a lead-in pole (A) is installed adjacent to the same roadway as the user's communication manhole (1), and FIG. A) is a diagram showing the road inlet pipe burial route 4 using the cylindrical pit 10 when the user communication manhole 1 and the road are interposed therebetween, and the installation process is specifically described through FIGS. 5A and 5B. Explain.

As shown in Fig. 5A. A horizontal drilling device 100 is installed inside the user communication manhole 1.

Then, the cylindrical pit 10 is excavated vertically to a depth required on the side of the lead-in pole (A) using a cylindrical drill device.

Although not shown, the cylindrical drill device is inserted into the stratum by receiving rotational force while connected to the power means, and includes a tubular collector that is drawn out to the ground after filling the stratum sample of the inserted depth therein. The cylindrical drill device having this configuration is similar to that of a conventional cylindrical sampler for grasping the physicochemical properties and structures of the stratum of an excavation area known through Korean Patent No. 848876, for example.

When the excavation of the cylindrical pit 10 is completed, the horizontal drilling device 100 is advanced and excavated horizontally from the user communication manhole 1 to the cylindrical pit 10.

The horizontal drilling device 100 is manufactured in a small size so that it can be placed inside a hole such as a manhole. For example, the PMG method known through Korean Patent No. 836626 and the press-fitting equipment applied to the construction device for the same, and the operating principle thereof are the same. Nevertheless, there is a big difference in that in order to be placed in a place with a small internal space such as a user communication manhole, the equipment must be manufactured separately.

As shown in Figure 5b, when the horizontal excavation from the user communication manhole (1) to the cylindrical pit 10 is completed, the horizontal drilling device reaching the cylindrical pit 10 excavated on the side of the lead-in pole (A) ( Fix one end of the inlet pipe 20 to the tip of 100).

As for the inlet pipe 20, as shown in FIG. 6, it is preferable to use a plurality of inner pipes and a multiple pipe having a single appearance. This allows multiple broadcasters to occupy each interior and install independent tracks, while the burial work is jointly carried out, helping to reduce overall construction costs. In addition, in the buried construction of the present invention, since there is a bent portion of the lead-in pipe, it is preferable that the appearance has a shape of a corrugated pipe as shown in FIG. 12 in order to facilitate the bending of the lead-in pipe at the bent portion.

Then, the front end of the horizontal drilling device 100 is moved backward to the user communication manhole 1 so that one end of the inlet pipe 20 is buried in a state extending to the user communication manhole 1.

Then, after fixing the other end of the lead-in pipe 20 to the lead-in pole (A), the operation is completed by filling the cylindrical pit 10 and restoring it.

On the other hand, it is preferable to recycle the cylindrical lumps collected from the cylindrical drill again when the cylindrical pit 10 is buried and restored.

The cylindrical mass is divided into a road surface layer and a soil layer. The road surface layer is concrete or ascon, and the soil layer is the part where ordinary soil is minced. It is preferable that the road surface layer be reused except for the hole through which the inlet pipe 20 passes.

When the cylindrical block of the road surface layer is concrete, the material required to bond the concrete may be used as the adhesive material, and when the cylindrical block of the road surface layer is the asphalt concrete, the material required to bond the asphalt concrete may be used as the bonding material.

FIG. 7 is a diagram showing a road inlet pipe buried route when a lead-in pole (A) is installed at an angle with a user communication manhole (1) and a road in between, as shown in FIG. The burial path from the communication manhole (1) to the incoming pole (A) is very long.

In this case, it is preferable to set the buried path 4 by dividing the road side into a cross path 4a crossing the road close to a right angle and a road side path 4b extending the road side in the longitudinal direction.

Of these, the cross-path (4a) is a part that receives a lot of load, and in consideration of aesthetics, the inlet pipe 20 may be installed in the same manner as described above using the horizontal drilling device 100.

At this time, the cylindrical pit 10a is excavated using a cylindrical drill device also at the bent portion at the intersection of the communication manhole 1 and the roadside path 4b. The cylindrical pit 10a of the bent part is excavated together when the cylindrical pit 10 is excavated on the side of the lead-in pole (A).

In addition, a cylindrical pit 10b is excavated using a cylindrical drill device at the bent portion at the intersection of the cross path 4a and the roadside path 4b, and the cylindrical pit 10b inserts the horizontal drilling device 100 It must be excavated as large as possible in diameter. Accordingly, the cylindrical pit 10b has a larger diameter than that of the cylindrical pit 10 excavated on the side of the lead-in pole A or the cylindrical pit 10a excavated at the bent portion.

On the other hand, the roadside path (4b) is preferably located at the boundary line of the drainage side made of concrete and the road pavement made of asphalt. This roadside path (4b) can be horizontally drilled with the horizontal drilling device 100 and constructed by the trenchless method, and since it receives a relatively small load and is not a part that is easily exposed to the outside, excavation with a more convenient method, mini trenching. It could be.

In this mini-trenching process, it is preferable that the cutting operation of the relatively hard road surface layer and the excavation operation of the soil layer beneath are separated from each other.

The reason for this is that the place where the operator's lead-in pipe should be buried is a residential area where most of the residents already reside, so be careful about the generation of noise and dust. Therefore, the relatively hard road surface layer is cut with a circular cutting saw blade installed in a conventional road cutting cutter, and after the cutting is performed at regular intervals, the sub-base layer is separately excavated.

When mini-trenching is excavated in the same manner as described above, noise and dust generated during cutting of the hard road surface layer can be minimized.

When the cutting of the road surface layer of the roadside path 4b is completed, the auxiliary base layer located under the road surface layer is excavated to a predetermined depth.

In addition, a lead-in pipe 20 that is extended and buried along the cross-path (4a) is attached to the excavated sub-base to connect the lead-in pole (A) and the user communication manhole (1), and then the excavated auxiliary base layer and the road surface layer are connected. The construction is completed by reclamation and restoration.

At this time, it is preferable to reuse the road surface layer by inserting the cylindrical road surface layer obtained from the cylindrical sample collector and the road surface layer obtained in the step of removing the cut road surface layer into the cut area. In this case, it is possible to minimize the emission of industrial waste.

FIG. 8 is a diagram showing a road inlet pipe buried path when a lead-in pole (A) is installed obliquely on the same roadway as the user's communication manhole (1) according to another embodiment of the present invention. As for the road surface layer of the route 4b, the inlet pipe 20 may be installed in the same manner as described above using a mini trench, and the crossing route to the intersection of the user communication manhole 1 and the roadside route 4b ( For 4a), the inlet pipe 20 can be installed in the same manner as above using a horizontal drilling device. In this case, cylindrical pits 10a and 10 are excavated using a cylindrical drill device on the side of the bent portion and the lead-in pole A as the intersection point.

The installation process of the road inlet pipe in this embodiment is performed very quickly and conveniently in the same manner as in the other embodiments of the present invention described above.

FIG. 9 is a diagram showing a road inlet pipe buried path when the inlet pole is installed obliquely on the same roadway as the user's communication manhole 1 and on the opposite roadway according to another embodiment of the present invention. A crossing path (4a) to the intersection of the user communication manhole (1) and the roadside path (4b), including the roadside paths (4b, 4d), and the crossing path (4c) from the intersection to the opposite roadside path (4b) The inlet pipe 20 can be installed in the same manner as above using a horizontal drilling device on the road surface layer.

In this case, the intersection of the user communication manhole 1 and the roadside path 4b, the intersection of the crossing path 4c from the intersection to the roadside path 4b and the roadside path 4d on the other side, and the above Cylindrical pits 10b, 10b and 10 are excavated on the side of the lead-in pole A using a cylindrical drill device.

In Figures 10 and 11, a reference user communication manhole in which the operator's lead-in pipe is buried and connected at the lead-in pole, a peripheral user communication manhole arranged at a predetermined distance from the reference user communication manhole, and the reference user communication manhole and peripheral user communication. Another embodiment is shown including a connecting pipe that is horizontally penetrating and buried between the manholes.

As shown in Fig. 12, it is preferable that the outer pipe of the road inlet pipe or the connecting pipe is formed as a corrugated pipe so that it can be bent with a small radius of curvature.

In this embodiment, the trenching process crossing the road is omitted, only the roadside trenching process is performed, and the inlet pipe is installed in the cylindrical vertical drilling process and the horizontal drilling process. Since no signs of restoration remain, the exterior of the road surface layer can be preserved and the obstacles to road traffic during construction can be minimized.

As described above, preferred embodiments of the present invention have been described above with reference to the drawings, but the present invention is not limited to the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains are modified without departing from the spirit of the present invention. It is possible, and such modifications will fall within the scope of the present invention.

1...user communication manhole 10...cylindrical pit
20...Inlet piping 100...Horizontal drilling device
A...

Claims (1)

Installation step of a horizontal drilling device to install a horizontal drilling device in the interior of the user communication manhole;
Excavation step of a cylindrical pit using a cylindrical drill device to form a cylindrical pit to a required depth on the side of the lead pole;
A horizontal drilling device advancing step of horizontally drilling from the user communication manhole to the cylindrical pit by using the horizontal drilling device;
A lead-in pipe fixing step of fixing one end of the lead-in pipe to the tip of the horizontal drilling device reaching the cylindrical hole excavated on the side of the lead-in pole;
A horizontal drilling device reversing step of retreating the tip of the horizontal drilling device to the user communication manhole so that one end of the incoming pipe is extended to the user communication manhole and buried; And
A method of installing a road lead-in pipe for a subscriber line comprising a finishing step of fixing the other end of the lead-in pipe to an upper side of the lead-in pole, and reclaiming the cylindrical pit.

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