KR101888599B1 - Construction method for water pipe and waste pipe using that - Google Patents

Abstract

The present invention relates to a method for construction water and sewage pipes using a temporary facility for constructing water and sewage pipes. The temporary facility comprises: a column main body which is inserted into a ground to be erected while maintaining a constant interval along a side surface of a construction groove part in which water and sewage pipes are buried; a guide panel which is installed to be rotated on the column main body, and is arranged in a horizontal or inclined direction while being rotated toward another column main body arranged to be adjacent thereto; a driving unit which provides power to rotate the guide panel toward another column main body which is arranged in a vertical direction like the column main body and is arranged to be adjacent thereto after being inserted into the ground; and a power transmission unit which converts power provided from the driving unit into a rotary motion of the guide panel and transmits the power. To transmit power provided from the driving unit to a hinge unit of the guide panel, the column main body is provided with an operation hole unit connected to the driving unit, and a driving hole unit connected to the guide panel to be able to rotate.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of constructing a water pipe using a hypothetical construction for a water pipe construction,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of constructing a water supply and drainage pipe construction using a hypothetical construction for a water supply and drainage pipe construction, and more particularly, It is possible to secure a space in which the partition member is inserted while being rotated toward the column body side in which the guide panel is disposed adjacent to the column by the operation of the driving unit after inserting the column body and the guide panel of the H beam shape into the ground, The present invention relates to a method of constructing a water supply and drainage pipe using a hypothetical construction for a water supply and sewage pipe construction.

Generally, when buried underground structures such as electric power lines, water supply and drainage pipes, and pipelines for gas pipelines, it is necessary to prevent the collapse of the soil around the excavated soil caused by excavation work after securing the buried space of the underground structure Install the structure.

Such an installation method includes an unconfined formula (retention method) for installing a retaining structure together with excavation, and a recipe for laying a base plate on a retaining structure.

In the case of the unconfined formula, a wide working space is needed to install the crane, work vehicle, lift, etc. and to place the material for the excavation work, installation of the retaining structure, buried underground structure, backfilling operation.

When buried underground structures are excavated, it is a reality that not only the lanes in the area where the underground structures are buried but also the surrounding lanes are occupied to secure the work space.

However, in the case of the fortune-telling formula, as well as the buried area of the underground structure as well as the surrounding area, the following problems are pointed out, especially in the case of the inner city.

Traffic accidents and other complaints have occurred due to traffic congestion and inconveniences of passengers due to reduction, change, and blocking of traffic lanes such as lanes and India.

If a median separator is installed on the road at the time of construction on the road, it is difficult to change the lane so that it will incur enormous traffic disturbances in the direction of the vehicle in the direction of the construction, and the cost of removing and reworking the median separator do.

In addition, since a wide working space is required not only for the buried area of the underground structure but also for the surrounding area as described above, the buried operation of the underground structure itself may be impossible due to the spatial narrowness.

In order to solve the above-mentioned problems, a provisional stand for an installation method has been developed. In the prior art, a provisional installation stand for an installation method includes a seating part which is seated on a ground surface around a gullet portion formed by a troweling operation of the ground, And a support portion supported by the seating portion and the coupling portion to secure a working space on the upper side of the scouring portion.

The background art of the present invention is disclosed in Korean Patent Registration No. 10-1248860 (published on Mar. 29, 2013, entitled " Prototype stand for installation method and provisional structure for installation method using the same).

In the hypothetical example according to the prior art, since the both end portions of the blocking member are inserted into and supported by the groove portions of the column member when the blocking member is provided to block the gap between the pillars after the pillars are mounted upright on the paper surface, There is a problem that the blocking member may be deformed or broken by the applied load.

Therefore, there is a need for improvement.

The present invention is characterized in that after a groove portion in which a water supply and drainage pipe is buried in a ground surface is provided, the groove portion is installed along the side surface of the groove portion to prevent collapse of the groove portion, It is an object of the present invention to provide a method for constructing a water supply and drainage pipe using a hypothetical construction for the construction of a water supply and sewage pipe which is capable of securing a space for inserting a partition member while being rotated toward a column main body arranged adjacent to the guide panel .

The present invention relates to a column main body which is inserted upright on a ground while maintaining a predetermined gap along a side surface of a construction groove to which a water and sewage pipe is to be embedded; A guide panel rotatably installed on the column body and arranged in a horizontal or inclined direction while being rotated toward another column body disposed adjacent thereto; A driving unit for providing the power to rotate the guide panel to the other column body side disposed adjacent to the board body after being inserted into the ground surface in a vertical direction like the column body; And a power transmission portion for converting the power provided from the driving portion into a rotational motion of the guide panel and transmitting the power to the hinge portion of the guide panel, And a drive hole portion to which the guide panel is rotatably connected.

The driving unit of the present invention may further include: a motor for providing power; And an output shaft extending from the motor and having a first gear teeth formed at an end thereof.

(A) inserting a plurality of column bodies in a vertical direction while maintaining a constant spacing along an inner wall of an installation groove portion to be installed on a floor where the water supply and drainage pipes are embedded; (b) inserting an output shaft of a driving part into a work hole formed on an upper surface of the column body, and driving a motor to rotate a guide panel installed on the column body through a power transmitting part provided in the working hole part and the driving hole part; (c) erecting the partition member in a space formed between the column bodies while being rotated toward the other column body side where the guide panel is disposed adjacent thereto; And (d) placing the water supply and drainage pipes at intervals between a pair of the earth retaining walls forming the installation groove, wherein the partition wall members are continuously disposed and spaced apart from each other, .

A method for constructing a water supply and sewer pipe using a hypothetical pipe for constructing a water supply and drainage pipe according to the present invention is characterized in that a pair of guide panels are rotatably installed on a column body that is erected on a ground surface, The panel is expanded in different directions to create a space in which the partition member is inserted, thereby preventing the central portion of the partition member from being deformed or damaged by the load applied to the central portion of the partition member.

According to the present invention, there is provided a method for constructing a water supply and drainage pipe using a hypothetical construction for water supply and drainage pipe construction, wherein a guide panel is horizontally or slantly disposed at intervals between pillars to support a central portion of the partition member, The partition wall member is inserted into one or a small number of partition members to form the earth retaining facility, thereby reducing the time and cost required for installation of the pipeline for the construction of the water and sewage pipes.

In addition, since the power of the driving unit is converted into the rotational motion of the pair of guide panels by the operation of the power transmitting unit provided on the column body, and the water is transferred to the column member by using the hypothetical water- There is an advantage that a space in which the partition member is inserted can be easily provided while easily spreading a pair of installed guide panels in different directions.

1 is a perspective view illustrating a hypothetical construction for the construction of a water supply and drainage pipe according to an embodiment of the present invention.
FIG. 2 is an operational state diagram illustrating a hypothetical work for the construction of a water supply and drainage pipe according to an embodiment of the present invention.
3 is a view illustrating an inserting step and a driving step of a method for constructing a water supply and drainage pipe using a hypothetical construction for water supply and drainage pipe construction according to an embodiment of the present invention.
FIG. 4 is a view showing a blocking step and a seating step of a method for constructing a water supply and drainage pipe using a hypothetical construction for a water supply and drainage pipe construction according to an embodiment of the present invention.

Hereinafter, an embodiment of a method of constructing a water supply and drainage pipe using the hypothetical construction for water supply and drainage pipe construction according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view illustrating a construction of a water supply and drainage pipe according to an embodiment of the present invention, FIG. 2 is an operational state diagram illustrating a construction for a water supply and drainage pipe construction according to an embodiment of the present invention, FIG. 4 is a view illustrating an inserting step and a driving step of a water supply and drainage pipe construction method using a hypothetical construction for a water supply and drainage pipe construction according to an embodiment of the present invention. The blocking step and the seating step of the method.

1 through 4, a hypothetical example for the construction of a water supply and drainage pipe according to an embodiment of the present invention includes a column body 10 inserted upright on the ground while maintaining a predetermined gap along a side surface of a construction groove to be filled with a water supply and drainage pipe, Guide panels 30 and 36 which are rotatably installed on the column main body 10 and arranged in a horizontal or inclined direction while being rotated toward the other column main body 10 arranged adjacent to the guide main body 10, A driving unit 70 which is arranged in a vertical direction like the column main body 10 and provides power to be rotated toward the other column main body 10 disposed adjacent to the ground after being inserted into the ground; And a power transmitting portion 50 that converts the power to be transmitted to the guide panels 30 and 36 into rotational motions and transmits the rotational motions.

Therefore, the guiding structure of the present embodiment is constructed, and the driving unit 70 is operated to move the guide panels 30 and 36 from the column main body 10 to both sides The guide panels 30 and 36 are arranged in the horizontal or inclined direction at intervals between the plurality of column bodies 10 to form a space between the column bodies 10. [

The front and back surfaces of the partition member 80 are supported by the guide panels 30 and 36 so that the center portion of the partition member 80 is pressed against the earth pressure It is possible to prevent deformation or breakage of the optical fiber by the optical fiber.

Since the guide posts 30 and 36 are rotatably provided at the lower ends of the both ends of the column main body 10, When the power provided by the operation of the power transmission portion 50 is transmitted to the guide panels 30 and 36 and the pair of guide panels 30 and 36 are rotated in the lateral direction, And the space portion is formed in the interval between the columnar bodies 10 while being rotated in the direction of the main body 10.

The guide panels 30 and 36 are formed on the side and bottom of the guide panel 30 and 36 with a sharp blade portion 32. The guide panel 30 and 36 have curved portions 34 When the guide panels 30 and 36 are rotated by the operation of the driving unit 70 and the power transmitting unit 50, the guide panels 30 and 36 are rotated by the edges formed at the lower ends of the guide panels 30 and 36, 36 can be prevented from interfering with each other, and the guide panel 30, 36 can be easily inserted into the ground surface by the blade portion 32.

A driving hole 14 is formed on both sides of the bottom of the column main body 10 formed in a vertically long panel shape and a driven shaft 54 is inserted into the driving hole 14, A first guide panel 30 and a second guide panel 36 are provided.

The column main body 10 is provided with a work hole 12 to which the driving part 70 is connected so that the power provided from the driving part 70 of the present embodiment can be transmitted to the hinge parts of the guide panels 30 and 36, A drive hole portion 14 to which the guide panels 30 and 36 are rotatably connected is formed.

The operation hole portion 12 is formed downward from the center of the upper surface of the column main body 10 and the drive hole portion 14 extends from both side surfaces of the column main body 10 toward the center portion side of the column main body 10, 12 so that the work hole 12 and the drive hole 14 are formed in a round shape.

The drive unit 70 of the present embodiment includes the motor 72 that provides the power and the output shaft 74 that extends from the motor 72 and has the first gear teeth 76 formed at the end thereof, When the output shaft 74 is inserted into the work hole 12 when the motor 72 is mounted on the upper surface of the main shaft 10, the first gear teeth 76 formed at the end of the output shaft 74 are engaged with the main shaft 52 And transmits the power of the motor 72 to the main shaft 52 while being gear-connected to the second gear teeth 52a formed at the upper end.

The power transmitting portion 50 of the present embodiment includes a second gear teeth 52a which is rotatably inserted into the working hole portion 12 and extends to the drive hole portion 14 and which is connected to the first gear teeth 76 in a gear- A first gear 56 provided at an inner end of the main coaxial shaft 52 and a second gear 56 rotatably inserted in the operation hole portion and connected to the guide panels 30 and 36 And a second gear 58 formed at the inner end of the driven shaft 54 and gear-connected to the first gear 56. [

Therefore, when the operator places the motor 72 on the upper surface of the column main body 10 and inserts the output shaft 74 into the work hole 12, the first gear teeth 76 and the second gear teeth 52a are gear- The power of the first gear 72 is provided to the first gear 56 along the output shaft 74 and the main shaft 52 and the pair of second gears 58 Are rotated in different directions to rotate the pair of driven shafts 54 in different eccentricities.

The guide panels 30 and 36 connected to the respective driven shafts 54 are rotated in different directions so that the pair of guide panels 30 and 36 are spaced apart from each other in the interval between the column bodies 10 It becomes a space part.

Thereafter, the worker inserts the partition member 80 between the pair of guide panels 30, 36 by using the heavy equipment, thereby providing the temporary structure for the construction of the water supply and drainage pipe, It is possible to place the water supply and drainage pipe in the installation groove portion and to fill the water supply and drainage pipe.

A method of constructing a water supply and drainage pipe using the hypothetical construction for water supply and drainage pipe construction according to an embodiment of the present invention will be described as follows.

The method for constructing a water supply and drainage pipe using the hypothetical construction for water supply and drainage pipe construction according to an embodiment of the present invention includes the steps of: And inserting the output shaft 74 of the driving part 70 into the working hole part 12 formed on the upper surface of the column main body 10 and driving the motor 72 to move the working hole part 12 and the driving hole part 12, Rotating the guide panels 30 and 36 provided on the column main body 10 through the power transmitting portion 50 provided in the guide bracket 14 and guiding the guide panels 30 and 36 on the other column main body 10, (80) in a space formed between the columnar bodies (10) while being rotated to the side of the columnar body (10), a step of continuously arranging the partition member (80) A pair of earth retaining walls It includes the step of seating the water supply and drainage tube to the spacing between.

First, the installation groove portion in which the water supply and drainage pipe is installed is dug into the ground using a heavy equipment such as an excavator, and a plurality of column members and guide panels 30 and 36 are inserted upright along both side surfaces of the installation groove portion.

The motor 72 is mounted on the upper surface of the column member and the output shaft 74 is inserted into the work hole portion 12 to drive the first and second gears 56 and 58 to drive the motor 72 The first gear 56 is rotated while the output shaft 74 and the main shaft 52 are rotated and the pair of second gears 58 and the driven shaft 54 are rotated The pair of guide panels 30 and 36 are rotated in different directions and spread toward the adjacent column main body 10 to form a space portion at an interval between the column members.

Thereafter, the partition member 80 is inserted into the space defined by the pair of column main bodies 10 and the pair of guide panels 30, 36 to support both side surfaces of the installation groove portion, The water supply and drainage pipes are seated in the interval between the pair of the bypass pipes, and the installation groove is buried to complete the construction of the water supply and drainage pipes.

Thus, after the groove portion in which the water supply and drainage pipe is embedded on the ground surface is provided, it is installed along the side surface of the groove portion to prevent the groove portion from collapsing. After inserting the column body of H beam and the guide panel into the ground, It is possible to provide a space for inserting the partition member while being rotated toward the column body side where the panel is arranged adjacent to the panel body, thereby making it possible to provide a method for constructing a water supply and drainage pipe using a hypothetical construction for water supply and drainage pipe construction.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

In addition, although the water and sewage pipe construction method using the hypothetical construction for water supply and drainage pipe construction has been described as an example, this is merely an illustrative example, and a construction method using the hypothetical invention of the present invention is also applicable to other products other than the water and sewage pipe construction method using the hypothetical construction for water supply and sewage pipe construction Can be used.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: column main body 12:
14: drive hole portion 30: first guide panel
32: blade portion 34: curved portion
36: second guide panel 50: power transmission portion
52: main coaxial shaft 52a: first gear tooth
54: slave shaft 56: first gear
58: second gear 70:
72: motor 74: output shaft
76: second gear teeth 80: partition wall member
100: sewer pipe

Claims (3)

delete delete (a) inserting a plurality of column bodies in a vertical direction while maintaining a constant spacing along an inner wall of an installation groove to be installed on a floor where the water and sewage pipes are embedded;
(b) inserting an output shaft of a driving part into a work hole formed on an upper surface of the column body, and driving a motor to rotate a guide panel installed on the column body through a power transmission part provided in the work hole part and the driving hole part;
(c) erecting the partition member in a space formed between the column bodies while being rotated toward the other column body side where the guide panel is disposed adjacent thereto; And
(d) placing the water supply and drainage pipes at intervals between the pair of earth retaining walls forming the installation groove, the partition walls being continuously arranged and spaced apart from each other, Construction method of water and sewage pipes using hypothetical construction.

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