KR101498144B1 - Horizontal well drilling device having oil pressure cylinder - Google Patents

Abstract

The present invention relates to a horizontal aligning apparatus having a hydraulic cylinder capable of increasing the diameter of a case to be pushed and the length of a piercing case to be pushed at the time of making a punch, and includes a drive motor coupled to one side of a support plate, An auger member connected to the driving motor and pivoting the ground while being driven to rotate by a rotational driving force provided by the driving motor; A hollow case having a hollow inside thereof and accommodating the auger member in the hollow and being inserted into the ground by pivoting of the auger member; A guide pipe inserted into the auger member and having a position tracking sensor at an end thereof so as to track a direction in which the pouring case is pushed into the ground; A direction changing unit for adjusting a direction in which the pushed case is pushed into the ground; And four hydraulic cylinders, one side of which is fixed to the drive motor and the other side of which is fixed to the pivoting case so that the pivoting case is pushed in the direction in which the pivoting case is pierced by the auger member by pressing the pivoting case to the ground side The direction of pivoting of the tip of the horizontal aligning device used for the installation of the pipe connected with the intake pipe can be adjusted so that the precise construction can be performed and the operation capacity of the hydraulic cylinder can be increased without increasing the diameter of the hydraulic cylinder So that the bore diameter and the bending length can be extended.

Description

TECHNICAL FIELD [0001] The present invention relates to a horizontally aligning device having a hydraulic cylinder,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal aligning apparatus having a hydraulic cylinder, and more particularly, to a horizontal aligning apparatus having a hydraulic cylinder capable of increasing the diameter of a piercing case and the length of piercing of a piercing case at the time of setting.

Recently, as the importance of water resources has increased due to changes in the environment due to industrial development and population growth, it is known that many developed countries are putting enormous budget and effort into securing enough water resources.

As part of efforts to secure such water resources, for example, mainly in European advanced countries, there are few cases where direct water is taken directly for the production of tap water, and radial dust collecting is installed on the lake or river side, The riverbed filtration method has been making efforts to use fewer possible chemicals in the purification process.

Typically, radial collectors have the advantage of pumping large quantities of water from the aquifer and can even increase the rate of water inflow from aquifer to aquifers and sediments, In Korea, there is an increasing tendency to introduce radial house correction.

1 is a plan view showing a structure in which a horizontal aligning apparatus having a conventional hydraulic cylinder is pierced by a ground.

As shown in FIG. 1, a radial vertical windshield 1 is applied to the soft rock layer and the carcass layer through the soil layer and the sandwich layer, and then the horizontal excavator 10 (2) is installed in an aquifer located between the stony bed and the carcass layer through a horizontal drainage tank (2) and a strainer is installed in the horizontal drainage tank (2) do.

1, a pipe-shaped outer casing 11 is press-fitted into the inner wall of the vertical collector 1 through a horizontal excavator 10, The horizontal intake tube 2 is excavated by rotating the screw rod 12 inserted in the outer casing 11 to advance the excavation tool 13 at the front end.

However, in such a conventional horizontal aligning apparatus, since there is no means for judging whether the direction of advance of the ground moves in a direction desired by the operator when the outer casing 11 is pushed onto the ground, It is inconvenient for the construction.

Further, even if the direction of advance of the outer casing 11 does not proceed in a direction desired by the operator, there is no means for adjusting the direction of advance of the outer casing 11, so that there is a problem that correct construction can not be performed.

In addition, when the conventional outer casing 11 is pivoted to the ground, two hydraulic cylinders are used to press the outer casing 11 to the ground to perform the pumping. In the case where the hydraulic cylinders are manufactured in two sets, There is a problem that the construction is limited because the construction can be performed only within a diameter of 400 mm or less and a pumping length of 80 m.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for adjusting a direction of pivoting of a horizontal aligning device used for installing a pipe, And an object of the present invention is to provide a horizontal aligning apparatus having a hydraulic cylinder capable of increasing a movable capacity of a hydraulic cylinder and extending a bore and a bending length without increasing the diameter of the cylinder.

In order to solve the above-described problems, the present invention provides a driving apparatus for a vehicle, comprising: a driving motor coupled to one side of a supporting plate to provide a rotational driving force; An auger member connected to the driving motor and pivoting the ground while being driven to rotate by a rotational driving force provided by the driving motor; A hollow case having a hollow inside thereof and accommodating the auger member in the hollow and being inserted into the ground by pivoting of the auger member; A guide pipe inserted into the auger member and having a position tracking sensor at an end thereof so as to track a direction in which the pouring case is pushed into the ground; A direction changing unit for adjusting a direction in which the pushed case is pushed into the ground; Four hydraulic cylinders, one side of which is fixed to the drive motor and the other side of which is fixed to the piercing case so that the piercing case is pushed in the direction in which the piercing member is pierced by the auger member by pressing the piercing case to the ground side; The present invention relates to a horizontal aligning apparatus having a hydraulic cylinder.

Here, between the other side of the hydraulic cylinder and one side of the pushing case, a press-in plate having a cylinder hole and an auger hole penetrating the plate surface may be provided.

The direction changing unit includes a cylindrical tip end head member provided at the tip of the pushing case and inclined at one side thereof, and one end connected to the drive motor, the other side connected to the pushing case, And a rotary socket provided between the rotary case and the drive motor for connecting the rotary case and the drive motor.

In addition, the direction switching unit may include a tip slant member having a tip provided at an end of the guide pipe extended to the outside of the auger member and having a tip formed to be inclined, and a guide pipe having one side of the guide pipe connected to the drive motor to be rotatable The socket may be configured as a rotary socket.

In addition, the end of the auger member may be provided with a separate trick cone bead disposed at the tip of the push case.

The outer case of the auger member may be provided with a separate light guide for guiding the direction in which the push casing is to be pushed.

The monitoring pipe may further include a monitoring member for visually recognizing a pivot path of the guide pipe tracked by the position tracking sensor and a direction guided by the light pipe so as to correct the pivot path of the guide pipe. have.

The present invention can adjust the direction in which the leading end of the horizontal aligning device used for installation of the pipe connected with the intake pipe can be adjusted so that accurate construction can be made and at the same time without increasing the diameter of the hydraulic cylinder, It is possible to increase the capacity and extend the bore diameter and the bending length.

1 is a plan view showing a structure in which a conventional horizontal aligning apparatus pivots a ground,
2 is a plan view showing a structure of a horizontal aligning apparatus having a hydraulic cylinder according to an embodiment of the present invention,
3 (a) and 3 (b) are plan views illustrating the operation of pivoting a ground using a horizontal aligning apparatus having a hydraulic cylinder according to an embodiment of the present invention,
4 is a plan view showing the structure of a horizontal aligning apparatus having a hydraulic cylinder according to another embodiment of the present invention,
5 (a) and 5 (b) are plan views showing an operation of pivoting a ground using a horizontal aligning apparatus having a hydraulic cylinder according to another embodiment of the present invention,
6 is an exploded perspective view of a press fitting plate and an inflow cylinder of the horizontal aligning apparatus having the hydraulic cylinder according to the present invention in an exploded manner.

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

FIG. 2 is a plan view showing the structure of a horizontal aligning apparatus having a hydraulic cylinder according to an embodiment of the present invention. FIGS. 3A and 3B are views showing a hydraulic cylinder according to an embodiment of the present invention. FIG. 4 is a plan view showing the structure of a horizontal aligning apparatus having a hydraulic cylinder according to another embodiment of the present invention, and FIG. 4 (a) is a plan view showing a horizontal aligning apparatus And FIG. 6 is a plan view showing a horizontal positioning apparatus having a hydraulic cylinder according to another embodiment of the present invention. FIG. 6 is a plan view showing a horizontal positioning apparatus using a horizontal positioning apparatus having a hydraulic cylinder according to another embodiment of the present invention. And Fig. 7 is an exploded perspective view showing the inflow plate and the inflow cylinder.

As shown in these drawings, a horizontal aligning apparatus having a hydraulic cylinder according to the present invention includes a drive motor 100 coupled to one side of a support plate 110 to provide a rotational drive force, The auger member 200 is connected to the driving motor 100 to pivot the ground while being rotated by a rotational driving force provided by the driving motor 100. The hollow member 310 is formed inside the auger member 200, A position detecting sensor 410 is provided at an end of the pushing case 300 so as to track the direction in which the pushing case 300 is pushed into the ground by the pushing of the auger member 200, A guide pipe 400 to be inserted into the member 200 and a direction switching unit 500 for adjusting the direction in which the pushing case 300 is pushed into the ground, And pressed by the auger member 200, And four hydraulic cylinders 600 having one side fixed to the driving motor 100 and the other side fixed to the case 300 so that the case 300 pierced in the direction in which the ground is pierced is pushed.

The drive motor 100 is a member that is fixedly coupled to one side of the support plate 110 and serves to provide a rotational force to the auger member 200 side that pivots the ground. The drive motor 100 includes four hydraulic cylinders 600 And is fixedly coupled to one side of the support plate 110.

One side of the hydraulic cylinder 600 is fixedly coupled to one side of the support plate 110 and the other side of the hydraulic cylinder 600 is fixedly coupled to one side of the pushing case 300, Respectively.

The grounded case 300 is pushed together with the auger member 200 by the hydraulic cylinder 600 to the ground so that the ground is pushed by the auger member 200 and the pierced case 300 is pushed into the ground .

6, a cylinder hole 611 and a press-in plate 610 through which an auger hole 612 is inserted are installed on the plate surface between the other side of the hydraulic cylinder 120 and one side of the push case 300 .

An auger hole 612 through which the auger member 200 can pass is formed in a central region of the press plate 610 and four hydraulic cylinders 120 can pass through the periphery of the auger hole 612 Four cylinder holes 611 are formed.

As described above, by using the horizontal aligning device of the present invention having four hydraulic cylinders, the diameter of the casing 300 can be expanded to 600 mm, the diameter of 600 mm can be pushed to 150 m, The driving capacity of the hydraulic cylinder 600 at this time is as high as 8000 KN.

The numerical calculation shows that when two hydraulic cylinders are used, the cylinder can be pivoted up to 100 m when the diameter of the hydraulic cylinder is 300 mm. Therefore, the frictional resistance acting on the case is A = 0.3 x 3.14 x 100 = 94.2 m ² , and the unit resistance is P = 2500 / 94.2 = 26.6 KN / m ² .

Therefore, the hydraulic cylinder capacity required when the diameter of the pushing case is 600 mm and the pumping length is 150 m and the diameter of the hydraulic cylinder is equal to the diameter of the conventional hydraulic cylinder is A = 0.6 x 3.14 x 150 = 282.6 m ² , and the required driving capacity of the hydraulic cylinder 600 is 282.6 m ² x 26.6 KN / m ² = 7517 KN, the capacity of the hydraulic cylinder 600 is 8000 KN.

The auger member 200 is a member that drills substantially the ground, and is provided with a separate trick cone bead 210 at the end thereof for initial piercing of the ground.

The tricon beads 210 for excavation are preferably made of a harder material than the auger member 200 for smooth piercing at the time of initial piercing. For smooth initial piercing, Respectively.

A helical spiral member 220 is provided on the circumferential surface of the auger member 200 to move the ground material such as soil or gravel or the like generated when the ground is pushed back to form a bone vacuum having a predetermined diameter, Respectively.

The piercing case 300 is a cylindrical member formed to enclose the outside of the auger member 200. When the auger member 200 is inserted into the perforated ground as the ground is punctured, .

After the paving operation of the ground is completed, the pavement case 300 is drawn out to the outside of the ground, and then the pillar pipe is inserted at the position where the pavement case 300 is inserted.

2, a guide pipe 400 of a horizontal aligning apparatus having a hydraulic cylinder according to an embodiment of the present invention is installed at a front end of the auger member 200 through the inside of the auger member 200 And extends to the outside of the driving motor 100 through the driving motor 100.

A position tracking sensor 410 is provided at an end of the guide pipe 400 positioned at the tip of the auger member 200 and a position tracking sensor 410 is provided at an end of the guide pipe 400 extending to the outside of the drive motor 100 And a light wave generator 700 is provided for allowing the position sensor 410 to determine whether the position sensor 410 is disposed at a correct position to be installed by interaction with the sensor 410. [

That is, the light guide 700 guides the precise direction in which the ground should be pushed due to the linearity of the light generated by the light guide 700, and the position tracking sensor 410 is disposed on the route guided by the light guide 700 It is possible to judge whether or not the accurate construction is being performed.

In order to correct the pivoting path of the pivoting case 300 according to this determination, it is possible to visually recognize the pivoting path of the pivoting case 300 tracked by the position tracking sensor 410 and the direction guided by the panning device 700 A separate monitoring member 800 may be further provided.

The direction switching unit 500 includes a cylindrical head end member 510 provided at the tip of the pushing case 300 and having a side surface inclined and a case 500 having one side connected to the driving motor 100, A rotating case 520 installed between the rotating case 520 and the driving motor 100 to rotate the rotating case 520 and the driving motor 100, And a rotating socket 530 for connecting the rotating sockets.

The driving of the rotary socket 530 can be performed in a forward direction or a reverse direction by visually recognizing the displacement of the position of the position tracking sensor 410 and the excitation path guided by the light guide 700 by the separate monitoring member 800 The rotation is performed at a constant angle in the reverse direction.

3 (a), when the pushed case 300 moves upward with respect to the direction guided by the light guide 700, one side surface of the leading end head member 510, which is formed in an inclined shape, So that the tip end resistance force acts on the lower side so that the pushed case 300 moves downward and is pivoted in the direction guided by the light wave machine 700.

3 (b), when the pushed case 300 moves downward with respect to the direction guided by the light guide 700, the side surface of the leading end head member 510, which is inclined, So that the tip end resistance force acts on the upper side so that the pushed case 300 moves upward and the direction guided by the light wave machine 700 is pushed.

4, a part of the guide pipe 400 of the horizontal aligning device having the hydraulic cylinder according to another embodiment of the present invention is disposed inside the auger member 200 and the other part And extends outwardly of the auger member (200).

When the guide pipe 400 is formed in such a structure, the direction switching unit 500 is provided at the end of the guide pipe 400 whose tip is extended to the outside of the auger member 200, and has a tip inclination A member 540 and a rotation socket 550 for connecting one side of the outer surface of the guide pipe 400 to the driving motor 100 to be rotatable.

In addition, as in the case of the embodiment of the present invention, a separate path (not shown) for visually recognizing the pivot path of the pushing case 300 tracked by the position tracking sensor 410 and the direction guided by the light guide 700 A monitoring member 800 is further provided.

5 (a), when the guide pipe 400 moves upward with respect to the direction guided by the light guide 700, the guide pipe 400 is sloped in a downward inclined direction The tip end resistance force acts on the lower side so that the guide pipe 400 moves downward and is pivoted in the direction guided by the light wave machine 700. [

5 (b), when the guide pipe 400 moves downward with respect to the direction guided by the light guide 700, the guide pipe 400 may be inclined upwardly The tip end resistance force acts on the upper side so that the guide pipe 400 moves upward and the direction guided by the light guide 700 is pivoted.

As described above, the grounding process of the ground using the horizontal aligning apparatus having the hydraulic cylinder having such a configuration is as follows.

First, the auger member 200 and the drilling case 300 of the horizontal aligning apparatus having the hydraulic cylinder according to the embodiment of the present invention are disposed in the direction of drilling the ground.

After the excitation direction of the auger member 200 and the pushing case 300 is guided by operating the light guide 700, the excitation direction guided by the light guide 500 and the position tracking And confirms whether the sensor 410 is matched through the monitoring member 800.

Thereafter, when the drive motor 100 is driven, the tricon beads 210 provided at the end of the auger member 200 are brought into contact with the inner wall of the collector, and the rotation of the drive motor 100 is progressed, The auger member 200 and the pushing case 300 are pierced by the piercing of the drag trick bead 210.

The power that the pushing case 300 is pivoted to the ground is provided by the operation of the four hydraulic cylinders 600. The pushing case 300 is pushed by the hydraulic cylinder 600 to the perforated ground side, 300 are pivoted.

As the auger member 200 and the pushing case 300 are pivoted, the pushing direction guided by the light guide 700 to the monitoring member 800 and the position tracking sensor 410 at the end of the guide pipe 400 do not coincide The direction changing unit 500 is driven so that the pushing case 300 is pivoted in the pushing direction in which the light guide 700 guides.

When the auger member 200 and the excavating case 300 are inserted into the ground with a desired length by the above-described process, the auger member 200 and the excavating case 300 are taken out from the ground, The construction is completed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: drive motor 110: support plate
200: auger member 210: tricon bead for excavation
220: helical member 300: pushing case
310: hollow 400: guide pipe
410: Position tracking sensor 500:
510: tip head member 520: rotating case
530: Rotating socket 540: Tip inclined member
550: Rotating socket 600: Hydraulic cylinder
610: press-in plate 611: cylinder ball
612: auger ball 700: light wave
800: absence of monitoring

Claims (7)

A driving motor 100 coupled to one side of the support plate 110 to provide rotational driving force;
An auger member 200 connected to the driving motor 100 and driven by a rotational driving force provided from the driving motor 100 and driven to the end to pivot the ground;
(300) having a hollow (310) formed therein and receiving the auger member (200) in the hollow (310) and being inserted into the ground by pivoting of the auger member (200);
A position tracking sensor 410 is provided at an end of the excavator case 300 so as to track the direction in which the excavating case 300 is pivoted to the ground and is extended outwardly of the excavating trincon bead 210, A guide pipe 400 inserted into the guide pipe 200;
A direction switching unit 500 for adjusting the direction in which the pushing case 300 is pushed into the ground;
One side of which is fixed to the drive motor 100 so that the drilling case 300 is pushed in the direction in which the ground is pierced by the auger member 200 by pressing the drill case 300 to the ground side, Four hydraulic cylinders 600 fixed to the pushing case 300; ≪ / RTI &
The direction changing unit 500 includes a leading end inclined member 540 having a tip formed at an end of the guide pipe 400 extending to the outside of the auger member 200 and having a tip inclined, And a rotary socket 550 connected to the driving motor 100 so that one side of the outer side of the driving motor 100 is rotatable,
A separate light guide 700 for guiding the direction in which the pushing case 300 is to be pushed is provided outside the auger member 200,
So as to visually recognize the pivot path of the guide pipe 400 tracked by the position tracking sensor 410 and the direction guided by the light pipe 700 so as to correct the pivot path of the guide pipe 400 Wherein a separate monitoring member (800) is provided to control the temperature of the fluid. The method according to claim 1,
Wherein a cylinder hole (611) and a press-in plate (610) through which an auger hole (612) is inserted are provided between the other side of the hydraulic cylinder (600) and one side of the pushing case (300) A horizontal alignment device. delete delete delete delete delete

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