KR101436817B1 - The connecting bearing device for horizontal Directional Drilling method - Google Patents

Abstract

The present invention relates to a joint bearing apparatus used in a directional press fitting method which resupplies a bentonite mixed liquid processed to be recyclable at an arrival hole side to a reamer side in a reaming step and a pulling step, is directly connected to a front side of a reamer and is connected to a hollow rod at the back to rotate only the reamer instead of rotating the hollow rod continuously connected during a reaming work, and prevents a helix between hollow rod joints from being uncoiled due to an unexpected rotation of the reamer. The joint bearing apparatus used in a directional press fitting method includes a bearing housing in which a pipe insertion hole and a pipe connection hole are formed at one side and the other side, respectively, and a penetration hole is formed between the pipe insertion hole and the pipe connection hole; a housing cover closing the pipe insertion hole of the bearing housing; a connection rod in which one side is inserted inside the bearing housing though the pipe insertion hole of the bearing housing, and the other side is connected to the hollow rod or a connection apparatus of a pipe to be buried; a plurality of bearings supporting the connection rod to be rotatable inside the bearing housing; and an airtight ring sealing the portion between the bearings and the connection rod.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a connecting bearing device used in a directional indentation method,

The present invention relates to a connecting part bearing device used in a directional indenting method, and more particularly, to a connecting part bearing device used in a directional indenting method, and more particularly, to a method and apparatus for re-supplying a recycled bentonite mixed liquid to an air- And the hollow rod connected to the rear side can be connected to the rear side so that the hollow rod continuously connected at the time of opening operation is configured to rotate only the air without rotating, To a connecting portion bearing device used in a directional indentation method in which a spiral can be prevented from being unwound.

Generally, the non-excavation type excavation method is a construction method that creates a tunnel in the underground without directly excavating the road, unlike the open type construction method which is performed through the road surface wave when the underground pipelines such as water supply and drainage pipes, power pipes, communication pipes and gas pipes are buried. Such an unbonded excavation method is known as a horizontal directional drilling method (H.D.D. method), and this method is recognized to be superior to other methods in reducing social cost and securing safety.

As shown in FIG. 1, the directional indentation method (Korean Patent No. 836626) is used to press-fit the hollow rod 16 into the ground while continuously connecting the hollow rod 16 by using the press fitting device 10, A drill bit 22 of a small diameter is connected to the front side of the rod and the water and the bentonite mixed liquid are supplied and sprayed through the hollow in the rod at a high pressure, A drilling step of forming a pilot borehole penetrating the drill bit to the drill hole; 2, the drill head 22 connected to the front end rod is replaced with a reamer 26 whose diameter gradually increases, and the bentonite mixture solution (water , A bentonite mixed solution, an additive, etc.) is supplied and sprayed to form a drilling hole having a desired diameter; As shown in FIG. 3, when the inside of the cigarette reaches the desired diameter by the repeated wiping operation, a plurality of buried object pipes 29 are connected to each other behind the final reamer 26 on the side of the arrival port 20 And a pulling-out step for pulling the cigarette into the cigarette by pulling the cigarette toward the start opening (18).

The high-pressure bentonite mixture injected from the reamer during the expansion and pulling stages is discharged to the crypt at the reaching side of the activated state by the rotation of the reamer rather than the starting sidewall, which is a stationary fluid, and most of the bentonite mixture is collected at the reach do. When the air is hung on a high-strength foreign matter and it suddenly rotates suddenly while it is released, the hollow rod connected by the spiral connection every 10m or less from the reamer is loosened due to the impact, The second hollow rod is released from the cigarette and the separated second hollow rod is taken out of the reaching hole and the reamer side from which the second hollow rod is taken out is left in the starting hole It is necessary to separate the first hollow rod from the first hollow rod and perform a drilling operation in which the first hollow rod is installed in the digging cave from the starting hole to the reaching hole so that it is possible to carry out the drilling operation so that the troublesome operation, There is a problem that the economical efficiency of the hanging construction is deteriorated as well as inefficiency.

In order to perform the pulling operation, the hollow rod 17 is separated from the reamer 26, and one side of the separate swivel 30 is connected to the reamer 26 as shown in FIG. 4, A shackle 32 is connected to the other side of the swivel 30 by a pin 33 and then a plurality of buried object pipes 29 are connected to the shackle 32 by a chain 34, 26 and the swivel 30 and the shackle 32 are pulled while rotating the reamer 26 from the arrival port 20 to the start port 18 side using the press fitting device 10 on the side of the start port 18, So that the target pipeline is buried.

As a result, it is troublesome and uncomfortable for the pooling operation, and it takes a long time, and a separate swivel must always be provided. During the pulling operation, the shackle is twisted or twisted, There is a problem in that the pulling operation is inefficient due to the increased force applied.

Since the swivel is clogged before and after the swing, it is not possible to supply the recycled bentonite mixed solution from the reaching port to the reamer during the pulling operation, so that the occurrence of the bentonite sludge can not be reduced and the entire bentonite sludge , And when the bentonite sludge is filled in the reaching side, the work must be stopped, resulting in delay in work and inefficiency of construction.

Accordingly, it is an object of the present invention to provide a bentonite mixture liquid which can be recycled to be supplied to the air side, And the hollow rod continuously connected to the rear side can be connected to the rear side so that the hollow rod continuously connected during the wiping operation is configured to rotate only the air without rotation and the spiral is released from the hollow rod connecting portion due to the sudden rotation of the air- Which is used in a directional indentation method.

In addition, the present invention enables the connection of the buried object pipe with ease and prevents the front side of the plurality of buried object pipes from being sagged or twisted, while allowing water or recyclable bentonite mixed liquid to flow from the reaching port to the reamer side even during pulling. And it is an object of the present invention to provide a connecting part bearing device used in a directional indentation method in which a force applied to a small stone or foreign matter inside a drilling hole can be prevented from being increased during pulling.

According to another aspect of the present invention, there is provided a connection portion bearing device for a directional indentation method, comprising: a tube insertion port and a pipe connection port formed at one side and the other side, respectively; And a housing cover for closing the tube insertion port of the bearing housing; A connection rod inserted into the bearing housing at one side thereof through a pipe insertion port of the bearing housing and connected at the other end to a hollow rod or a pipe connection device for a buried object; A plurality of bearings rotatably supporting the connection rod in the interior of the bearing housing, and a base mill sealing the space between the bearing and the connection rod.

The connection rod may have a fixing jaw that is larger in diameter than the tube insertion hole of the housing cover so that the fixing jaw can be fixed to the inner side of the housing cover. And a third bentonite mixed solution supply hole 133 which is formed in the same axis as the first bentonite mixed solution supply hole of the connecting rod and the second bentonite mixed solution supplying hole of the reamer.

The buried object pipe connecting device has one end connected to the connecting rod of the bearing housing and the other end connected to the hollow rod and having the same axis as the first bentonite mixed solution supply hole of the hollow rod and the connecting rod A horizontal tubular body having a third bentonite mixed solution supply hole formed therein; And a pulling vane having a plurality of holes integrally formed on an outer side of the horizontal pipe body and having an annular hole formed therein so as to be connected to a buried object pipe by a connecting means such as a chain.

As described above, according to the present invention, a bentonite mixture liquid that has been recyclable can pass through the interior of the vessel, thereby enabling to supply the bentonite mixture liquid that has been recyclable at the inlet to the expansion air side during the expansion operation and the pooling operation, As a result, the occurrence of bentonite sludge can be minimized, thereby preventing environmental pollution. Moreover, it is possible to secure the continuity of work without interruption of work due to the economical efficiency due to recycling of bentonite sludge and the filling of bentonite sludge on reaching side. It is possible to have an effect.

In addition, the present invention is directly connected to the front side of the reamer to directly support the reamer from the front side and to continuously connect the hollow rod to the rear side so that the hollow rod continuously connected during the opening operation does not rotate It is possible to eliminate the inefficiency of the construction due to the damage of the hollow rod due to the collision with the inside of the excavation hole and the delay of the opening operation by rotating the reamer only by rotating the hollow rod together with the reamer .

Further, according to the present invention, it is possible to separately connect the buried object pipe to the buried object pipe connecting device by connecting the buried object pipe connecting device to the rear without separately having a swivel in the pooling operation, And there is no phenomenon that the front side of the buried object pipe is sagged or twisted, so that it is possible to prevent the force from being increased due to the small stones or foreign substances in the drilling hole during the pulling operation. Thus, There is an advantage that can be performed quickly.

1 is a side view showing a state in which a drill bit is used to form a tip drill hole in a general directional indentation method;
FIG. 2 is a side sectional view showing a state in which a reamer is installed instead of the drill bit in FIG. 1 to expose a tip drilling hole; FIG.
3 is a side cross-sectional view showing a state in which a target pipe is connected to the rear end of the final reamer of FIG.
4 is a schematic configuration view showing a conventional pulling operation state.
5 is a perspective view showing a connecting portion bearing device used in a directional indenting method according to the present invention.
Fig. 6 is a sectional view of Fig. 5; Fig.
7 is a schematic structural view showing another embodiment of the present invention.

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

5, the connecting portion bearing device 120 used in the directional indenting method according to the present invention includes a bearing housing 121 having a tube insertion port 121a and a pipe connection port 121b on one side and the other side, A housing cover 122 that closes the tube insertion port 121a of the housing 121 and one end of the housing cover 121 are inserted into the bearing housing 121 through the tube insertion port 121a of the bearing housing 121, A connecting rod 123 connected to the rod 17 and a plurality of bearings 124 and a milling ring 125 for rotatably supporting the connecting rod 123 in the bearing housing 121.

The bearing housing 121 is formed to have a circular cross section and the pipe connecting hole 121b is formed to protrude from one side of the bearing housing 121 and has a front side connection end portion 16c or hollow The tube insertion port 121a is formed to extend over the entire interior of the bearing housing 121. A through hole 121c is formed between the tube insertion port 121a and the pipe connection port 121b. Is formed. The housing cover 122 for closing the tube insertion port 121a of the bearing housing 121 is formed in a disc shape having the same circular section as the bearing housing 121. A connecting rod 123 A plurality of bolt fastening holes 122b are concentrically formed on the outer periphery of the connecting rod insertion holes 122a, and a plurality of bolt fastening holes 122b are formed concentrically with the connecting rod insertion holes 122a, And the housing cover 122 can be fixed to the bearing housing 121 through the bolt fastening holes 122b.

The connecting rod 123 penetrates the inside of the center portion of the first bentonite mixed solution supply hole 131 in the horizontal direction forming the same axial line as the front side connecting end of the reamer 26 or the hollow rod 17, A plurality of bearings 124 are provided between the connecting rod 123 and the bearing housing 121 and a cylindrical milling ring 125 is provided for the purpose of maintaining the airtightness between the bearing 124 and the connecting rod 123 Respectively. A fixing jaw 123a having a diameter slightly larger than the tube insertion hole 122a of the housing cover 122 is formed on the outside of the connection rod 123 so that the fixing jaw 123a is caught in the inside of the housing cover 122 So that the connecting rod 123 can be prevented from being detached from the bearing housing 121 and separated from the bearing housing 121.

In addition, when the inside of the cigarette reaches the desired diameter by the repetitive operation of the spreading step, the pulling step of the present invention is carried out in such a manner that, as shown in FIG. 6, And the plurality of buried object pipes 29 are connected to the buried object pipe connecting device 140 so as to be connected to the reaching hole 20 together with the final reamer 26 And the plurality of buried object pipes 29 are buried into the inside of the excavation hole by being pulled by the start hole 18.

The buried object pipe connection device 140 has a diameter corresponding to the outer connection rod 123 or the hollow rod 17 of the bearing housing 121 and is connected to the first bentonite mixed solution supply port 123 of the connection rod 123 Is formed in the horizontal tube 141 having the third bentonite mixed solution supply hole 133 on the same axis as the hole 131 and the second bentonite mixed solution supply hole 132 of the hollow rod 17 or the reamer 26 And a plurality of trailing blades 142 are integrally formed at intervals along the outer circumference of the horizontal tube 141. Between the respective trailing blades 142 and the buried object pipe 29, And are connected to each other by connecting means 143 of various types, and each of the trailing wings 142 is formed with a hole 143a so that one side of the chain can be connected to each other.

As described above, according to the present invention, the recycled bentonite mixed solution can pass through the interior of the apparatus, thereby allowing the bentonite mixed solution, which has been recyclable at the arrival port, to be supplied to the expanded air side during the expansion operation, It is possible to minimize the environmental pollution and to ensure the economical efficiency due to the recycling of the bentonite sludge and the continuity of the work without stopping the work due to the filling of the bentonite sludge on the reaching side, thereby further increasing the speed and efficiency of the construction.

In addition, the present invention is directly connected to the front side of the reamer to directly support the reamer from the front side and to continuously connect the hollow rod to the rear side so that the hollow rod continuously connected during the opening operation does not rotate It is possible to solve the inefficiency of the construction due to the damage of the hollow rod and the delay of the pouring operation due to the impact of the hollow rod with the reamer while colliding with the inside of the drilled hole.

Further, according to the present invention, it is possible to separately connect the buried object pipe to the buried object pipe connecting device by connecting the buried object pipe connecting device to the rear without separately having a swivel in the pooling operation, And there is no phenomenon that the front side of the buried object pipe is sagged or twisted, so that it is possible to prevent the force from being increased due to the small stones or foreign substances in the drilling hole during the pulling operation. Thus, So that it can be performed quickly.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, The range is determined and limited. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

120: Connection bearing device
121: Bearing housing 121a:
121b: pipe connecting hole 121c: through hole
122: housing cover 122a: connecting rod insertion hole
122b: bolt fastening ball 123: connecting rod
124: Bearing 125: Machine milling
140: burial object pipe connection device 141: horizontal pipe
142: Towing wing 143a: Loop hole

Claims (4)

A bearing housing 121 in which a tube insertion port 121a and a pipe connection port 121b are formed on one side and the other side respectively and a through hole 121c is formed between the pipe insertion port 121a and the pipe connection port 121b; A housing cover (122) for closing the tube insertion port (121a) of the bearing housing (121);
One side of the bearing housing 121 is inserted into the bearing housing 121 through the tube insertion port 121a and the other side of the coupling rod 121 is connected to the hollow rod 17 or the connection pipe 140 123);
A plurality of bearings 124 for rotatably supporting the connection rod 123 inside the bearing housing 121 and a cylindrical mill 125 for sealing the gap between the bearing 124 and the connection rod 123;
And a connecting portion bearing device used in the directional indentation method.
The method according to claim 1,
The connection rod 123 is formed with a fixing jaw 123a having a larger diameter than the tube insertion hole 122a of the housing cover 122 so that the fixing jaw 123a is caught and fixed to the inside of the housing cover 122 And a connecting portion bearing device used in the directional indentation method.
The method according to claim 1,
The burial object pipe connecting device 140 further includes a third bentonite mixed solution supply hole 133 having the same axis as the first bentonite mixed solution supply hole 131 of the connecting rod 123 Connection bearing unit used in one directional indentation method.
The method of claim 3,
One end of the hollow rod 17 is connected to the connection rod 123 of the bearing housing 121 and the other end of the hollow rod 17 is connected to the hollow rod 17, A horizontal tubular body 141 having a third bentonite mixed solution supply hole 133 having the same axis as the first bentonite mixed solution supply hole 131 of the connecting rod 123;
A plurality of projecting blades 143a are formed on the outer side of the horizontal tube 141 so as to be connected to the buried object pipe 29 by connection means 143 such as a chain, (142);
And the connecting part bearing device of the directional indentation method used in the directional indentation method.

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