KR20140009773A - Foaming-agent-stuffing type multiprotector for protecting underground conduit - Google Patents

Abstract

The present invention has a purpose of protecting underground conduits such as electrical, and communication cables ,gas and waterworks, etc. buried underground, and relates more specifically to a foaming-agent charging type multi-protector for protecting operation underground conduits while being provided with a multi-protector comprising steel-reinforced concrete block structures. allowing further improvement of durability to sufficiently withstand underground earth pressure upon underground burial operation of the multi-protector by forming a foaming agent charging pipe inside the multi-protector and charging in the foaming agent charging pipe a foaming agent fast expanded and diffused with generation of bubbles upon contacting with air, enabling display of stable performance to the multi-protector by causing reactions in the charging pipe only by shocks of an extent of imposing danger to underground conduits due to this, and also shortening of operation times as well as further improvement of operation efficiencies by allowing performing of stable operations to a sufficient depth due to an excavator upon excavation operation according to repair constructions with an improved durability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-

The present invention relates to an underground buried pipe for protecting an underground buried pipe such as electricity, communication cables, gas, water, etc. buried in the ground, and more particularly to a multi-protector made of a separate reinforced concrete block structure for protecting a channel buried in the ground By using the above-mentioned multi-protector to construct an underground pipe such as electricity, communication cable, gas or water, etc., it is possible to prevent the direct impact of the underground pipe in the underground In addition to protecting the pipeline, it also quickly recognizes that the blowing agent filled in the inside of the primary multi-protector is released to the outside and the underground pipeline is buried in the excavator driver. As a result, It can prevent the damage of underground pipeline such as communication cable, gas, and water supply, The blowing agent-filled type which makes it possible to extremely improve the safety of the underground conduit relates to the protection of underground pipelines multi protector.

The subdivision of the distribution line in Korea was started in 1973 by supplying the complicated distribution lines from Hyoja-dong to Gwanghwamun section to the neighboring customers from the pole transformer using the low voltage cable, Since then, it has been planned and expanded as follows.

In 1961, Kyungsung Electric, Namsun Electric, and Chosun Electric were integrated into one electric power company. Due to the increase of electric power demand, the construction of 22kV underground distribution line was rapidly increased to 40 km. In the 1970s, As the density of loads in the city increased rapidly due to the redevelopment and large-scale buildings, the undergroundization project was made in earnest.

In September 1975, the President of the Seoul Metropolitan Government hosted a meeting of executives of relevant departments under the direction of the President to order the complicated lines (power lines, telephone lines) of major arterial roads in the four main gates of Seoul. From 1977 to 1981, The underground project was promoted to 32 km on the road, and the underground plan was established in preparation for the Asian Games in 1986 and the 1988 Seoul Olympic Games. Since 1986, six major metropolitan cities, including the central part of Seoul, have been selected and implemented.

Until 1988 Seoul Olympics was successfully implemented, it was actively promoted as a supporting project of national policy. Recently, it has been expanded to various cities such as new towns and industrial complexes outside the city center.

In addition, the proportion of urban development is increasing with the development of a new development complex, and the urban planners are increasingly seeking to build a public space within the development complex in order to make the urban environment beautify, traffic congestion caused by double road excavation, Construction, power lines, and communication lines to be built underground.

On the other hand, as described above, the underground conduit buried in the ground is embedded in the ground which is spaced apart from the ground by a certain depth, so that safety and heat insulation can be ensured.

However, as the above-mentioned configuration of the underground distribution line is gradually increased, the frequency of line accidents is also gradually increasing. The main cause of the line accident is the cable failure, which accounts for 80% If half of the cables were damaged due to trauma, and the average number of breakdowns of underground equipments in three years (157 cases)

* Breakdown by equipment

Cable failure: 125 (80%), breaker failure: 19 (12%), transformer failure: 13 (8%

* Breakdown by cause

The number of injuries was 80 (51%), 51 (32%), and 26 (17%).

The main cause of the underground cable trauma that occupies such a high proportion is to carry out the earthquake disaster work for the burial of the additional underground cable in addition to the already buried underground cable, Such a digging construction, in general, excavates the ground quickly and easily with excavators and other equipment.

In this way, during the excavation work, the operator of the excavator can not see underground pipelines such as electricity, telecommunication cable, gas, water, etc. buried in the ground. Therefore, If an impact on the pipeline is detected, move the bucket so that the bucket does not touch the underground cable.

However, if the driver does not know the position of the underground cable, excavation work will result in the trauma of the bucket of the excavator destroying the underground pipelines such as electricity, communication cable, gas, and water supply.

Damage to underground pipes such as electricity, telecommunication cable, gas, and water caused by excavation work can lead to large safety accidents such as electric shock, communication disconnection, gas explosion, and singularity.

On the other hand, in order to prevent the above-mentioned safety accidents in advance, it is necessary to sand a certain thickness on the upper part of the pipeline to be buried, to install a vinyl cable protection sheet or a plastic cable protection plate thereon, Construction is being done.

However, in the case of the above-mentioned protection method, when detecting underground manure by manpower, it is found that the cable is buried in the case of detecting the protection sheet or the protection plate. However, when the equipment such as an excavator is used, And safety accidents are frequent due to damage to the underground pipelines such as electricity, communication cables, gas, and waterworks

In order to solve the above-mentioned problems, the applicant of the present invention has proposed a multi-protector made of a reinforced concrete block structure in which reinforcing bars are arranged inside, as in Patent Application No. 10-1049061, , Waterworks, etc., it is possible to easily detect the buried state of the underground pipelines and to prevent the coloring and odor from being externally applied to the multi-protectors from the outside during the operation Signal capsules of glass or synthetic resin are released, which makes it possible for an excavator operator to easily and stably grasp the underground pipelines such as electricity, telecommunication cables, gas and waterworks during excavation work.

However, such a multi-protector generates a signal by damaging the signal capsule formed in the multi-protector buried in order to protect the underground pipeline. This is because when the multi-protector and the signal capsule are buried in the ground, Due to the characteristics of the constructed signal capsule, when the earth pressure is applied to the ground after impact or the impact of the rocks during the burial, the damage often occurs without the external force such as the earthquake. In such an unexpected earthquake, It was easily swept down when it was flowed in, and then it was exposed to the problem that the function of the signal capsule could not be exerted when the digging work was carried out due to the maintenance of the underground pipeline.

In addition, due to the nature of the signal capsule which is damaged even by an extremely sensitive impact, there is a problem that the signal capsule is popped up even when the excavator does not sufficiently excavate it.

It is an object of the present invention to provide a multi-protector having a reinforced concrete block structure, in which a foam filling pipe is formed inside the multi-protector and air bubbles It is possible to improve the durability so that the multi-protector can withstand the earth pressure in the ground at the time of burial operation or burial in the ground, and only the shock to be attached to the underground pipe is dangerous, The present invention provides a multi-protector for protecting a filling agent-type underground pipe line, which is capable of exhibiting a stable performance in a multi-protector.

In addition, by improving the durability, it is possible to perform a stable excavation operation to a sufficient depth due to the excavator during excavation work according to the repair work, so that it is possible to shorten the working time, Another object of the present invention is to provide a multi-protector for protecting an underground pipe.

In order to achieve the above-mentioned object, there is a concrete means in which reinforcing bars are arranged in the inside and a plurality of fixing bars protruding downward are formed in the lower part, and a plurality of vertical penetration type soil charging vacuum holes and horizontal penetration type fastening holes communicating with the soil filling holes are formed A multi-protector in the form of a flat rectangular block capable of being connected by a machine bolt,

A foam filling tube is formed in the multi-protector in parallel to the upper portion of the reinforcing bar,

And a blowing agent injection port communicating with the blowing agent filling pipe is formed on the upper portion of the multi-protector, and a blowing agent can be injected and filled after the multi-protector is molded.

As described above, in the multi-protector for protecting the filling type underground pipeline according to the present invention, since the blowing agent filling pipe for generating the signal of the multi-protector buried in the upper part of the underground pipeline is accommodated in the multi-protector, It is possible to prevent breakage due to an external force so that the performance of a stable multi-protector can be exhibited later.

In addition, since the durability is improved, it is possible to carry out the stable excavation work to a sufficient depth by the excavator according to the repair work, so that the working time can be shortened and the working efficiency can be further improved.

1 is a perspective view of a multi-protector for protecting a filling type underground pipeline according to the present invention.
FIG. 2 is a plan sectional view of a multi-protector for protecting a filling type underground pipe line according to the present invention. FIG.
3 is a side cross-sectional view of a multi-protector for protecting a filler type underground pipeline according to the present invention.
Fig. 4 is a view showing the installation state of a multi-protector for protecting a filling type underground pipeline according to the present invention.
FIG. 5 is an operational view of a multi-protector for protecting a filling type underground pipeline according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 1 is a perspective view of a multi-protector for filling a foamed underground pipeline according to the present invention, FIG. 2 is a horizontal sectional view of a multi-protector for filling a foamed underground pipeline according to the present invention, and FIG. Sectional view.

As shown in Figs. 1 to 3, the multi-protector 1 for protecting a filling type underground pipe protection according to the present invention is made of a reinforced concrete material in which reinforcing bars 10 are laid in order to improve the strength thereof, A plurality of tongue-in-laid vacuum holes 30 are vertically formed at the corners, and a plurality of to-be-filled holes 30 are formed in the middle of the downwardly protruding type fixing table 20 for fixing and supporting the multi- A plurality of fastening holes 40 communicating with the gravel-like vacuum 30 are formed and connected to the adjacent multi-protector 1 by means of the machine bolts 50. The multi- And is configured in a plate-like block shape having a thickness to withstand.

The blowing agent filling tube 100 is formed in parallel with the inside of the multi-protector 1 so as not to interfere with the reinforcing bars 10 disposed inside the blowing agent filling tube 100, It is preferable that the reinforcing bar 100 is inserted and formed in the upper portion of the reinforcing bar 10 so that the reinforcing pipe 100 can react when the impact is applied.

That is, it is preferable that the blowing agent filling tube 100 is formed while being installed together with the reinforcing bars 10 to be placed at the time of manufacturing the multi-body protective film 100. The blowing agent filling tube 100 may be a rigid pipe such as PET (Tube).

The multi-protector 1 is further provided with a blowing agent inlet 110 communicating with the blowing agent filling pipe 100 inside the multi-protector 1, And the foaming agent 120 is injectable into the foaming agent filling pipe 100.

That is, the foaming agent 120 to be filled in the foaming agent filling pipe 100 is injected after molding the multi-protector 1, and the filling of the multi-protector 1 immediately before shipment It is preferable to ship it.

At this time, when the foaming agent 120 is filled, it is preferable that the foaming agent inlet 110 is closed with a finishing material 130 to prevent the foaming agent 120 from coming into contact with air.

Preferably, the finishing material 130 is a plug or a filler having hardenability in the air.

The foaming agent 120 is preferably a liquid foaming agent 120 that generates bubbles due to a polymer reaction upon contact with air and expands in volume. When the foaming agent 120 is filled, Is preferably closed with a finishing material 130 to prevent the foaming agent 120 from coming into contact with air.

At this time, the liquid foaming agent 120 may be a material having a volume expansion capability such as a urethane foam, a synthetic resin foam agent and a silicone foaming agent having excellent expandability of the volume.

Hereinafter, the operation of the multi-protector for filling underground pipeline protection according to the present invention having the above-described construction will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4, before installing the multi-protector 1 for protecting the filling type underground pipeline according to the present invention, an underground pipe 2 such as electricity, a communication cable, gas, Sand is sandwiched with a certain thickness to provide a multi-protector 1 on the upper part of the underground channel 2 and the sand layer is sandwiched between the underground channel 2 and the multi- .

The multi-protector 1 according to the present invention may be installed on the upper portion of the embankment layer. The multi-protector 1 may be installed and fixed on the upper surface of the embankment layer by using a fixing table 20 protruding from the lower surface of the multi- And the multi-protectors 1 are arranged in a continuous arrangement along the traveling direction of the installed underground channel 2.

Each of the adjacent multi-protectors 1 arranged in series is provided with a plurality of multi-protector 1 fastening holes 40 formed around the adjacent multi-protector 1 and a plurality of fastening holes 40 communicating with the adjacent multi- So that it is possible to prevent a single detachment of any one of the multi-protectors 1 by connecting and fixing them using a machine bolt 50.

The upper portion of the installed multi-protector 1 is then loaded with the underground pipeline 2 and the multi-protector 1 by backing up the upper portion of the multi- It is possible to finish the construction of the protector 1. At this time, the gravel-filled hole 30 of the multi-protector 1 is filled with the gravel-backed material so that the multi-protector 1 and the gravel- .

As described above, the underground pipeline (2) constructed by using the multi-protector for filling foam type underground pipeline according to the present invention, such as electricity, telecommunication cable, gas, and water supply, further improves the safety of the underground cable due to its stable construction You can.

In addition, since the multi-protector 1 made of a reinforced concrete material is greatly improved in strength and durability and the foam filling agent pipe 100 and the foaming agent 120 are formed therein, It is possible to prevent the blowing agent filling tube 100 from being damaged and to enable stable performance of the multi-protector 1 in the future.

The operation of the multi-protector 1 will now be described in detail with reference to the drawings. In the state where the underground conduit 2 is protected by the multi-protector 1, an additional additional line is buried for maintenance of the underground conduit 2, The operator is required to carry out excavation work prior to the repair work in the case of inserting and repairing the underground objects such as the upper and the lower sewage pipes and the worker can freely and promptly recognize the buried state of the multi- To perform the excavation work.

When the operator finds the multi-protector 1 in advance, the operator recognizes the burial of the underground pipe 2, removes the multi-protector 1 by hand, and performs maintenance work on the underground pipe 2 That is what you should do.

5, when the buried state of the multi-protector 1 is inevitably not recognized during excavation work, the multi-protector 1 is hit by the excavator. At this time, the multi-protector 1 is damaged The blowing agent filling tube 100 formed inside the multi-protector 1 is also broken and the buried state of the multi-protector 1 is confirmed.

That is, when the multi-protector 1 is broken, the blowing agent filling tube 100 inside the blowing agent tube 100 is also damaged. In this case, the blowing agent 120 filled in the blowing agent filling tube 100 is ejected to the outside At the same time, the polymer reaction is caused by the contact with the air, so that the bubbles are generated and the bulge is expanded, so that the operator can easily check the buried state of the multi-protector 1 and the underground conduit 2. Then, the operator stops excavation by the excavator The multi-protector 1 is manually removed and the maintenance work of the underground channel 2 is performed safely.

Industrial Applicability As described above, in the multi-protector according to the present invention, since the blowing agent filling tube for generating the signal of the buried state at the time of breakage of the multi-protector is housed inside the multi-protector, It is possible to perform stable excavation work with sufficient depth by the excavator according to the repair work by improvement of the durability, so that the working time can be shortened, Thereby further improving the working efficiency.

10: Rebar 20: Fixture
30: Tosser filling vacuum 40: fastening hole
50: Machine bolt
100: blowing agent filling pipe 110: foaming agent inlet
120: blowing agent 130: finishing material

Claims (2)

A plurality of vertically penetrating tongue-charging cavities 30 and a horizontal penetration-type coupling 30 communicating with the tongue-charging cavities 30. The reinforcing bars 10 are disposed inside the reinforcing bars 10, In the multi-protector 1 of the plate-shaped rectangular block type in which the hole 40 is formed and can be connected by the machine bolt 50,
A blowing agent filling pipe 100 is inserted into the multi-protector 1 in parallel with the upper portion of the reinforcing bar 10,
Foaming agent filling, characterized in that the foaming agent inlet 110 is formed in communication with the foaming agent filling tube 100 and the foaming agent 120 is injected filling after forming the multi-protector (1) on the multi-protector (1) Multi-protector for underground pipeline protection.
The method of claim 1,
The blowing agent 120 is composed of a liquid blowing agent 120 in which the volume is expanded by generating bubbles by polymer reaction upon contact with air,
Wherein the foaming agent 120 is sealed with a finishing material 130 at a foaming agent inlet 110 of the foaming agent filling pipe 100 to prevent contact with air when filling the foaming agent filling tube 100 Multiprotector for filling foam type underground pipeline.

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