KR101999647B1 - construction method of under-ground Electric power pipe line using natural soil - Google Patents

Abstract

The present invention discloses a construction method for reclaiming a power pipeline by recycling a raw soil material. When excavating a pipeline buried groove to bury a power pipeline and digging a buried pipeline groove, the excavated raw soil is sorted into a selected soil and a defective soil, Since the re-use of the selected soil is carried out, the aggregate material such as sand is not needed and the cost reduction effect can be expected. Since the transportation work of the aggregate such as sand is omitted, it is possible to carry out immediate back- It is possible to omit the repetition of the installation and demolition of the electric power lines, and as the electric power lines are maintained at a constant interval, the screening soil is immediately injected, The work time and the fatigue of the worker can be minimized, It can prevent accidents from occurring.

Description

Construction method of under-ground electric power pipe line using natural soil

The present invention relates to a method of reclaiming power from a recycled power plant, and more particularly, to a recycling method for recycled recycled power plants, And to improve the working efficiency as well as the working time by allowing the backwashing and the separation of the electric power lines to be equal to each other at the same time, thereby recycling the raw material for the electric power line backing.

Generally, the underground line system in electric power line construction is to install a cable by using a power line embedded in a ground and installing a cable using a built-in electric power line. By the cable connected between the landing pad and the landing pad, The cable is buried on the ground by an underground method due to the problem of damaging the beauty of the city.

In such an underground railway system, first, a plurality of electric power lines are disposed along the longitudinal direction of the grooved grooved grooves, after digging the grooved grooves at a predetermined depth on the surface of the ground on which the cable is to be installed, The channel is rebuilt with sand-like aggregate.

That is, as shown in FIGS. 1A to 1F, a groove 1 having a predetermined depth is drilled on a surface of a ground on which a power line is installed, and primary sand 2a is formed on the bottom surface of the channel- After finishing work, put the primary sand (2a) on the bottom surface firmly and firmly with the compaction device.

Next, a plurality of electric power ducts 3 to be installed are installed on the sand, and then the spacers 4 are manually operated by the operator so that the space between the plurality of installed electric power ducts 3 is maintained at about 10 cm At this time, a plurality of spacers 4 are sandwiched between the plurality of electric power lines 3 while the worker moves one by one in the longitudinal direction of the electric power line 3 installed in the pipeline embedded grooves 1 .

Next, the secondary sand 2b is refilled in the channel-embedded grooves 1 so that the power line 3 in a state where the spacer 4 is sandwiched is covered, and then the filled secondary sand 2b is again grounded The worker directly removes the spacers 4 sandwiched between the plurality of electric power lines 3 while moving along the longitudinal direction of the electric power line 3 and removes the surface of the secondary sand 2b by using the compaction device Work hard and flat.

By repeating the above steps, a plurality of electric power lines 3 are stacked in the channel-embedded grooves 1, and the power line 3 is buried. Complete.

In the conventional power line construction method, a plurality of spacers are moved by a worker along the longitudinal direction of the power line so as to separate the plurality of power lines laid out in the grooves in the pipeline at intervals of about 10 cm, The spacers must be removed while moving along the longitudinal direction of the electric power line, thereby maximizing the fatigue of the worker as well as the delay of the work time, thereby significantly reducing the work efficiency.

Further, there is a problem in that the worker must smoothly sand the sand covered by the power pipeline by manually moving the sand along the longitudinal direction of the power pipeline inside the narrow pipeline buried groove.

In addition, during the operation of covering the sand to the groove of the pipeline to bury the electric power line, the operator can not enter the inside of the pipeline buried groove, and the work of the operator is stopped while the sand is being covered have.

In addition, as the operator enters the pipeline buried grooves and installs the spacers on the electric power line, the collapse of the earth and sand causes a safety accident of the operator, and a large equipment such as an excavator and a worker The worker is exposed to safety accidents.

In addition, in the case of the conventional power line construction method, since the sand is filled to fill the aggregate sufficiently between the power lines, the additional construction cost due to the use of the sand is generated and the environmental damage to the collection and treatment of the sand is caused There is a problem in that transportation cost for transporting sand is increased, and a large amount of greenhouse gases or pollutants are generated during transportation and landfilling.

In the prior art, a method of constructing a high-pressure cable underground pipe using a troi tube, which is disclosed in Patent Document 10-0748258, has been proposed. In order to insert a troi tube, a tilting surface is formed by maintaining a constant inclination angle, Wherein the bottom surface has a width equal to the width of the outer side of the trolley tube, and a plurality of troch tubes are seated on the bottom surface of the trench, Forming a predetermined amount of sand in the space portion of the trojan tube, forming a high-voltage cable at a predetermined interval on the upper side of the sand, and repeatedly forming the sand flat on the upper side of the high- A step of burying a pipe for embedding a high-voltage cable and a step formed between the outer side of the troy pipe and the side surface of the excavating portion The upper part of the trench pipe is filled with sand and gravel to fill the trench pipe to a height equal to the height of the trench pipe, And a surface treatment step of performing a surface treatment by a mixer layer, a primer coating, and a tec coating to the upper side of the protective part formation step and the upper side protective part, and it is possible to perform the construction without installing the provisional construction, .

However, such conventional techniques also require that the process of installing cables at even intervals in the interior of the troly tube requires manual work of the operator, installation and disassembly of the spacers, and input of sand, have.

Korean Registered Patent No. 10-0748258 (Registered on Mar. 3, 2007) Korean Registered Patent No. 10-1309774 (Registered on September 11, 2013)

In the present invention, when a plurality of electric power lines are stacked along the lengthwise direction of grooved grooved grooves, the grooved work is carried out using the excavated raw soil when excavating the grooved grooves, and the installation and dismantling work of the spacers are omitted And it is possible to increase the recyclability of resources and to improve work efficiency as well as work time by making the input of raw soil and chopping and maintenance of gap between power pipelines be performed at the same time. There is a purpose.

In order to accomplish the above object, there is provided a method for reclaiming a power pipeline by recycling a raw material of the present invention, comprising the steps of: providing a plurality of electric power lines on a surface of a floor layer constructed after a floor layer construction process for constructing a floor layer along a longitudinal direction of an excavated channel- A method for constructing a power pipeline including a power pipeline burial process buried along a longitudinal direction of a pipeline buried groove and a topmost layer construction process of a buried grooved groove bottom, comprising the steps of: And a vibrating roller compaction device having a vibrating compaction part provided between the primary roller compaction part, the secondary roller compaction part, the primary roller compaction part, and the secondary roller compaction part, When the buried grooves are excavated, the extracted soil is sorted into the soil and defective soil by the earth sorting unit of the earth sorting and laying apparatus, and at the same time, The selected sorting soil is laid along the longitudinal direction of the excavated grove grooves while moving along the longitudinal direction of the buried grooves, and at the same time, after the surface flattening and sorting work of the selected soil laid by the original soil leveling portion of the earth sorting device, The roller compacting device is moved along the longitudinal direction of the grooved grooves so as to planarize the surface of the selected soil so that the surface of the selected soil is subjected to the primary roller compaction by the primary roller compaction portion and the vibration compaction by the vibration compaction portion, Wherein the second roller compaction operation by the roller compaction unit is performed so that the second roller compaction operation is sequentially performed along the longitudinal direction of the grooved groove, and the electric power line embedding step is a step of installing the plurality of electric power lines along the longitudinal direction of the grooved grooves, And the space holding grooves of the spacing retaining portions are disposed in the plurality of electric power pipes A gap holding portion positioning step of sandwiching the gap holding portions; Separation of the soil after the process of separating the retaining parts After selecting the soil extracted from the excavated soil through the earth selection part of the installation device, the selected soil is selected and the selected soil is put into the grouting groove through the soil input part, The apparatus is moved along the longitudinal direction of the pipeline buried grooves so that the selected soil is inputted through the raw soil input section in a state where the intervals of the plurality of power pipelines are kept the same by the interval maintaining section, And a power pipe backing process for allowing the surface flattening and leveling operation to proceed immediately by the original toe flattening portion of the earth soil sorting and laying apparatus moved along the longitudinal direction. After the backwashing process, the vibrating roller compaction device The flattening and grading operation is performed by the one-side flattening portion in the back- The surface of the screening soil is formed so that the primary roller compaction by the primary roller compaction portion and the vibration compaction by the vibration compaction portion and the secondary roller compaction by the secondary roller compaction portion are successively formed along the longitudinal direction of the groove embedded in the pipeline , The uppermost layer construction process for grouting grooves is performed by selecting the soil to be sorted and the soil to be sorted by the earth sorting unit of the earth sorting and laying apparatus when the excavated groove is excavated, The uppermost layer of the channel buried grooves is laid along the longitudinal direction of the groove buried in the channel excavated with the selected sorting soil while moving along the longitudinal direction, and at the same time, the surface flattening and leveling work of the screening soil laid by the one- The vibration roller compaction apparatus is moved along the longitudinal direction of the groove in the pipeline so as to form the uppermost layer of the groove embedded in the pipeline, The surface of the selected soil subjected to planarization and grading by the abovementioned original flat-bottomed sand portion is subjected to primary roller compaction by the primary roller compaction portion, vibration compaction by the vibration compaction portion, and secondary roller compaction by the secondary roller compaction portion, And is formed so as to be sequentially formed along the longitudinal direction of the groove.

In the present invention, when excavating the grout grout to bury the electric power channel, the excavated groove is excavated, and the excavated soil is sorted into the selected soil and the defective soil, and the selected soil is again used to carry out the back- It is possible to expect a cost saving effect and omission of the transportation of aggregate such as sand can be carried out immediately and the operator can omit repeatedly installing and dismounting the spacer directly As the distance between the electric power lines is kept constant, the screening soil is immediately injected and the surface flattening and leveling operation is performed simultaneously with the selection of the soil. Therefore, the working time and the fatigue of the operator can be minimized when the power line is buried, Can be prevented in advance.

FIGS. 1A to 1F are conceptual diagrams showing a process of burial construction of a conventional power line.
Fig. 2 is a process drawing showing a process of a method for reclaiming power from a recycled power plant according to the present invention.
FIG. 3 is a conceptual view showing a bottom layer construction process of a power pipe back-up construction method in which a raw material of the present invention is recycled.
Fig. 4 is a conceptual diagram of a state in which a plurality of electric power lines of a power line construction method recycled using the present invention as a power line are installed on a plurality of water line grooves in a horizontal plane.
FIG. 5 is a front view showing the backwashing process by the backwashing method of recycling the power plant according to the present invention.
FIG. 6 is a side view showing a back-up process by a back-up method for recycling power plants according to the present invention.
Fig. 7 is a perspective view showing constituent parts of the earth soil sorting and laying apparatus of the power pipe backing construction method recycled as the present invention.
Figs. 8 to 10 are conceptual diagrams each showing a chopping process by a power piping construction method recycled using the earth of the present invention. Fig.

Hereinafter, other objects and features of the present invention will be apparent from the following description of embodiments with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted in an ideal or overly formal sense unless explicitly defined in the present application Do not.

Hereinafter, a construction method for reclaiming power from a raw material according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

As shown in the drawings, the method for reclaiming a power pipe according to the present invention is a method for reclaiming a power pipeline by recycling a plurality of power pipelines into a bottom surface of a bottom layer constructed after a bottom layer construction process for constructing a bottom layer along a longitudinal direction of a buried channel, The present invention relates to a power pipe back-up method for recycling raw materials including a power pipe laying process along a longitudinal direction and a top-end floor construction process.

In the present invention, when excavating the pipeline buried grooves by using a forklag, that is, by using an excavator, the excavated grooves are used for back-up work of grouting grooves buried in pipelines do.

Accordingly, since the aggregate material such as sand is not required, the present invention can eliminate the cost of purchasing the aggregate material, and solve the problems caused by the time or aggregate material that is generated when the aggregate material is transported.

In addition, when constructing a plurality of electric power lines in the grooved grooves, the present invention can simultaneously carry out the interval maintaining operation of the electric power line, the backing operation of the electric power line with the interval maintained, and the flattening operation after the backing operation, It is possible to improve the work efficiency and workability, to shorten the working time, and to prevent worker safety accidents.

To this end, the present invention comprises a soil sorting and laying apparatus 100 having a soil sorting unit 10, a space holding unit 20, a soil input unit 30, and a circular arc sputtering unit 40.

The vibration of the primary roller 20 and the secondary roller compaction unit 220 is compensated by the vibration of the primary roller 20 and the secondary roller compaction unit 220 and between the primary roller compaction unit 210 and the secondary roller compaction unit 220, And a roller compaction apparatus 200.

As shown in the figure, the soil sorting and laying apparatus 100 moves along the longitudinal direction of the pipeline buried grooves 52 while being positioned at one side of the surface of the pipeline buried grooves 52, which are excavated long in the longitudinal direction.

When the earth sorting and laying apparatus 100 moves along the longitudinal direction of the pipeline buried grooves 52, it is possible to maintain the spacing of the plurality of power pipelines 51 placed in the horizontal plane, 51), the selected sorting soil is squeezed out of the excavated soil, and the flattening operation for smoothly picking up the surface of the reclaimed soil is carried out at the same time.

The spacing maintaining unit 20 of the earth sorting and laying apparatus 100 is located on the front side in the direction in which the earth sorting and laying apparatus 100 is moved along the longitudinal direction of the pipeline buried grooves 52, The top end projecting portion 40 is located on the rear side of the gap holding portion 20 and the source putting portion 30 is positioned between the gap maintaining portion 20 and the original top end projecting portion 40.

The selection soil guide 31 is provided on the upper side of the soil introduction part 30 so that the sorting soil selected by the soil sorting part 10 can be easily inputted to the soil introduction part 30 side.

The vibrating roller compaction apparatus 200 is constructed by grinding the surface of the reclaimed soil as shown in the figure so that the surface of the screening soil buried along the longitudinal direction of the pipeline embedding grooves 52 in the pipeline embedding grooves 52 So that the selected soil surface is planarized by the original soil leveling portion 40 of the soil sorting and laying apparatus 100.

The power pipeline sub-step S10 of the present invention thus constituted comprises a gap maintaining portion positioning step S11 and a power pipeline back-up step S12.

The spacing maintaining portion positioning step S11 of the present invention is characterized in that the plurality of power conduits 51 are laid along the longitudinal direction of the conduit burial grooves 52 and the grooves 52 are formed along the longitudinal direction of the excavated conduit buried grooves 52, And the gap holding grooves 21 of the gap holding portion 20 are inserted into the plurality of power conduits 51 after the selective laying apparatus 100 is moved.

That is, a plurality of power conduits 51 are horizontally placed along the longitudinal direction of the excavated conduit buried grooves 52, and then each of the plurality of power conduits 51 located in the conduit buried grooves 52 is sorted And is sandwiched in each of the plurality of spacing grooves 21 provided in the gap holding portion 20 of the laying apparatus 100.

The reason why the plurality of horizontal electric power lines 51 are sandwiched in each of the plurality of spacing grooves 21 provided in the interval holding portion 20 is that the earth sorting and laying apparatus 100 is installed in the channel- 52 are spaced apart from each other by a predetermined distance from each other.

The power pipe backing step S12 of the present invention is a method of sorting out the raw materials extracted at the time of excavation of the pipeline buried grooves 52 through the earth sorting unit 10 of the earth sorting and laying out apparatus 100 after the interval holding unit positioning step S11, Soil and poor soil are selected and the selected soil is put into the pipeline buried grooves 52 through the raw soil input part 30 so that the earth land sorting and laying apparatus 100 is moved along the longitudinal direction of the pipeline buried grooves 52 The selected soil is introduced into the channel embedded grooves 52 so that the selected soil can be introduced through the soil input section 30 in a state where the intervals of the plurality of electric power lines 51 remain the same by the interval maintaining section 20, So that the surface flattening and grading work is immediately carried out by the original to-be-flattened portion 40 of the earth-moving laying and laying apparatus 100 moving along the longitudinal direction of the ground.

The power pipeline back-up step S12 of the present invention allows a plurality of power pipelines 51, which are placed on a horizontal plane, to be returned to a state in which a predetermined interval is maintained.

That is, when the separating and laying apparatus 100 is moved in the longitudinal direction of the pipeline embedding grooves 52 after the spacing maintaining portion positioning step S11, the spacing of the plurality of power piping 51, The plurality of electric power lines 51 (51), which are kept at the same interval by the interval holding unit (20), are inputted into the soil inputting unit (30) side through the soil sorting unit Of course, is filled into the upper side of the plurality of power conduits 51 and filled.

In addition, the surface soil flattening operation of the screening soil filled with the original soil leveling portion 40 is carried out at the same time as the screening soil is filled and filled.

As described above, by moving the earth sorting and laying apparatus 100 along the longitudinal direction of the pipeline embedment grooves 52, the plurality of power pipelines 51 are spaced apart from each other, And a surface smoothing operation of the recovered soil is carried out simultaneously with the backwashing operation being carried out on the upper side, so that the worker can individually sandwich the plurality of spacers along the longitudinal direction of the plurality of electric power lines embedded in the channel- After the installation, aggregate such as sand is filled up along the longitudinal direction of the electric power line, and the operator performs planarization while moving along the longitudinal direction of the aggregate surface, and the worker conducts the planarization work along the longitudinal direction of the electric power line The operation of removing a plurality of spacers inserted in the electric power line while moving is omitted.

After the backfilling step S12, the vibrating roller compaction apparatus 200 is moved along the longitudinal direction of the pipeline embedment groove 52, and the flattening and grading operation is performed by the original toff top portion 40 in the backfilling step S12 And the secondary roller compaction by the secondary roller compaction unit 220 is carried out by the grooved grooves ( 52 in the longitudinal direction.

The primary roller compaction by the primary roller compaction unit 210 and the compaction of the primary vibration by the primary compaction unit 230 are performed while moving the vibration roller compaction apparatus 200 along the longitudinal direction of the surface of the screening soil, And the secondary roller compaction by the secondary roller compaction unit 220 proceeds sequentially. Therefore, the roller compaction operation using the roller compaction apparatus and the vibration compaction operation using the vibration compaction apparatus need not be separately performed.

In the present invention, a plurality of electric power lines 51 positioned in a horizontal state in a plurality of excavated pipeline buried grooves 52 may be stacked and buried by repeating the electric power line burial process S10.

At this time, the selected soil which has been filled to lay the electric power line 51 located at the lower end side is planarized by the original soil leveling portion 40, and the soil subjected to the planarization is also ground by the vibrating roller compaction apparatus 200 The first and second roller compaction, the vibration compaction and the second roller compaction are sequentially performed to solidify the selected soil, and then the electric power pipeline submerging step (S10) is repeated so that a plurality of power pipes (51) is horizontally embedded.

In the bottom layer construction step (S20) of the present invention, the soil extracted when excavating the pipeline buried grooves (52) is sorted by the soil selection unit (10) of the soil sorting and laying out apparatus (100) At the same time, the soil sorting and laying apparatus 100 is moved along the longitudinal direction of the pipeline buried grooves 52, and the selected sorting soil is laid along the longitudinal direction of the excavated pipeline buried grooves 52, (S20) by moving the vibrating roller compaction apparatus 200 along the longitudinal direction of the pipeline embedment grooves 52 after the surface flattening and selecting operation of the screening soil disposed by the original top- The surface of the soil subjected to the sorting operation is subjected to the primary roller compaction by the primary roller compaction unit 210, the vibration compaction by the vibration compaction unit 230 and the secondary roller compaction by the secondary roller compaction unit 220 So that the work is sequentially formed along the longitudinal direction of the pipeline buried grooves 52.

That is, when performing the bottom layer construction process (S20), which is a process for flattening the bottom layer of the channel-embedded grooves 52 before installing the electric power channel 51 in the excavated channel-embedded grooves 52, It is possible to reduce the cost incurred in using the aggregate such as sand as the bottom layer is constructed by using the screening soil after selecting the excavated soil.

The primary roller compaction by the primary roller compaction unit 210 and the compaction of the primary vibration by the primary roller compaction unit 230 are performed while moving the vibration roller compaction apparatus 200 along the longitudinal direction of the surface of the screening soil, And the secondary roller compaction by the secondary roller compaction unit 220 proceeds sequentially. Therefore, the roller compaction operation using the roller compaction apparatus and the vibration compaction operation using the vibration compaction apparatus need not be separately performed.

In the present invention, a plurality of electric power lines 51 are repeatedly laid on a vertical line, and a plurality of electric power lines 51 are horizontally laid out repeatedly. The uppermost layer construction step S30 of the grouting groove bottom is performed by selecting the soil extracted by the soil sorting unit 10 of the soil sorting and laying apparatus 100 when the pipeline buried grooves 52 are excavated, While the soil sorting and laying apparatus 100 is moved along the longitudinal direction of the pipeline buried grooves 52, the selected soil is buried in the pipeline along the longitudinal direction of the excavated pipeline buried grooves 52, The uppermost layer of the grooves 52 is laid out and the surface flattening and grading work of the screening soil laid by the original toe sloping portion 40 of the earth sorting apparatus 100 proceeds.

Accordingly, when excavating the grout-embedded grooves 52 without using aggregates such as sand, the ground floor is constructed by using the selected soil after selecting the excavated soil, and thus the cost incurred when using the aggregate such as sand Can be saved.

The primary roller compaction and the compaction of the primary roller by the primary roller compaction unit 210 while moving the vibrating roller compaction apparatus 200 along the longitudinal direction of the surface of the screening soil restored in the uppermost layer construction step (S30) And the secondary roller compaction by the secondary roller compaction unit 220 proceeds sequentially. Therefore, the roller compaction operation using the roller compaction apparatus and the vibration compaction operation using the vibration compaction apparatus are separately performed You do not have to do.

In addition, when proceeding with the bottom layer construction step S20 and the uppermost layer construction step S30 in which the grooves are buried, it is possible to simultaneously perform the planarization work of the input soil and the input soil by using the soil sorting and laying apparatus 100, And workability and work efficiency can be greatly improved.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

10: earth sorting unit 20:
30: a raw material input unit 40: a one-
51: electric power line 52: duct laying groove
100: earth sorting installation apparatus 200: vibration roller compaction apparatus
210: primary roller compaction unit 220: secondary roller compaction unit
230:
S10: Power line laying process S11: Spacing maintaining portion positioning process
S12: backfilling process S20: bottom layer construction process
S30: Construction process of the uppermost floor

Claims (3)

A bottom layer that constructs the bottom layer along the longitudinal direction of the excavated pipeline buried grooves; a power pipeline buried along the longitudinal direction of the plurality of power pipelines on the surface of the bottom layer constructed after the construction process; The method comprising the steps of:
A soil sorting and laying apparatus 100 having a soil sorting unit 10, a space holding unit 20, a soil input unit 30,
A vibrating roller compaction having a vibrating compaction part 230 provided between the primary roller compaction part 210 and the secondary roller compaction part 220 and between the primary roller compaction part 210 and the secondary roller compaction part 220; Device 200,
In the bottom layer construction step S20,
When the excavation of the pipeline buried grooves 52 is performed, the extracted soil and defective soil are selected by the earth sorting unit 10 of the earth sorting and laying out apparatus 100, and at the same time, The selected sorting soil is laid along the longitudinal direction of the excavated channel embedding grooves 52 while moving along the longitudinal direction of the buried grooves 52 and at the same time, After surface planarization of the selected soil,
The vibratory roller compaction apparatus 200 is moved along the longitudinal direction of the pipeline embedment grooves 52 so that the surface of the selected soil surface subjected to the planarization in the bottom floor construction step S20 Vibration compaction of the vehicle by the roller compaction and vibration compaction unit 230 and secondary compaction of the secondary roller by the secondary roller compaction unit 220 are sequentially performed along the longitudinal direction of the pipeline embedment groove 52,
In the electric power line embedding step S10,
The plurality of power conduits 51 are installed along the longitudinal direction of the conduit burial grooves 52 and are positioned to move the pre-layout apparatus 100 along the longitudinal direction of the excavated conduit buried grooves 52, A gap holding portion positioning step (S11) of inserting the gap holding grooves (21) of the gap holding portion (20) into each of the plurality of power conduits (51);
After the interval maintaining portion positioning step S11, the soil sorting unit 100 separates the soil extracted at the time of excavation of the pipeline buried grooves 52 through the earth sorting unit 10 into a sorting soil and a defective soil, And the ground separating and installing apparatus 100 is moved along the longitudinal direction of the pipeline embedding grooves 52 while being inserted into the pipeline buried grooves 52 through the raw earth charging unit 30, (50), and the selected soil is moved along the longitudinal direction of the channel-inserted grooves (52) so that the sorted soil selected through the soil-feeding part (30) (S12) for allowing the surface flattening and leveling operation to proceed immediately by the original flat-topped portion (40)
After the back-up process (S12)
The vibrating roller compaction apparatus 200 is moved along the longitudinal direction of the pipeline embedment groove 52 and the cut soil surface subjected to the planarization and sorting operation by the original soil leveling section 40 in the back- The primary roller compaction by the compaction unit 210, the vibration compaction by the vibration compaction unit 230 and the secondary roller compaction by the secondary roller compaction unit 220 are sequentially performed along the longitudinal direction of the channel- As shown in FIG.
The uppermost layer construction step (S30)
When the excavation of the pipeline buried grooves 52 is performed, the extracted soil and defective soil are selected by the earth sorting unit 10 of the earth sorting and laying out apparatus 100, and at the same time, The uppermost layer of the pipeline buried grooves 52 is laid along the longitudinal direction of the pipeline buried grooves 52 excavated with the selected sorting soil while moving along the longitudinal direction of the buried grooves 52, The surface flattening and grading work of the screening soil laid by the original top-and-bottom flat portion 40 is performed,
After the uppermost layer construction step (S30) of the groove embedded in the pipe,
The vibrating roller compaction apparatus 200 is moved along the longitudinal direction of the pipeline embedment groove 52 and the planarization and grading work performed by the flattening and smoothing operation by the original toplevel portion 40 in the uppermost stage floor construction step S30 The surface of which is collapsed by the primary roller compaction unit 210 and the vibration compaction by the vibration compaction unit 230 and by the secondary roller compaction by the secondary roller compaction unit 220, Are sequentially arranged along the longitudinal direction,
Wherein a plurality of power pipelines (51) positioned horizontally in a plurality of excavated pipeline buried grooves (52) are repeatedly buried in the power pipeline burial process (S10) How to build back up.
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