KR101779101B1 - Paving apparatus to form two layers simultaneously and Road pavement method using the same - Google Patents

Abstract

The present invention relates to a paving apparatus to form two layers simultaneously, which is configured to simultaneously run a lower layer paving device and a surface layer paving device, which are arranged in a line behind a lower layer material feeder and a surface layer material feeder, at the same speed, so that a lower layer and a surface layer can be simultaneously constructed by paving the surface layer immediately after a lower layer material is paved. According to the present invention, the paving apparatus to form two layers simultaneously comprises: a lower layer feeder for feeding the lower layer material so as to be able to run; a surface layer material feeder configured to travel and run along with the lower layer material feeder to supply the surface layer material; a lower layer paving device installed on the rear side of the lower layer material feeder to form a lower layer by paving the lower layer material supplied from the lower layer material feeder on the road surface; and a surface layer paving device which is provided so as to be able to run rearward of the lower layer paving device and forms a surface layer by paving the surface layer material supplied from the surface layer material feeder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a two-layer simultaneous laying apparatus and a road paving method using the same,

The present invention is constructed so that the lower layer re-laying machine and the surface layer re-laying machine, which are arranged in a line in the rear of the lower layer material feeder and the surface layer material feeder, are simultaneously run at the same speed, so that the surface layer material is immediately placed immediately after the lower layer material is laid, And a road pavement method using the same.

In order to improve the durability of roads, concrete structures such as concrete and asphalt are laid on the surface of the roads and the pavement structure is applied.

Conventionally, in order to package an asphalt road, a binder paver (3) for laying a lower layer material is installed on a road surface (A) to form a lower layer (B), and then a surface layer re- 4, ascon paver) to form a surface layer (C) on the upper surface of the lower layer (B).

However, at this time, the surface layer re-sludge (4) as well as the surface layer feeder (2) for supplying the surface layer material to the surface re-sludge seasoning (4) And work had to proceed while traveling on the upper surface of the lower layer (B) (Fig. 1).

Therefore, there is a problem in that the surface re-laying operation is required after the lower layer material is cured to some extent, and the road packaging time is long.

As shown in FIG. 2, in order to improve the contact between the lower layer material and the surface layer material, a tack coat is laid on the lower layer (B) according to the time difference between the lower layer material and the surface layer material, (D).

Therefore, it was not economical to construct the tack coat layer (D) because the construction period was longer and the work amount increased.

In order to solve the above-mentioned problems, the present invention provides a two-layer simultaneous laying apparatus capable of rapidly carrying out road paving by simultaneous construction of a lower layer and a surface layer by allowing a surface layer re- And to provide a method of using the road.

The present invention provides a two-layer simultaneous laying apparatus and a road paving method using the same that can reduce the air and construction cost required for tack coat layer formation without the need to form a separate tack coat layer on the upper part of the lower layer.

According to a preferred embodiment of the present invention, a lower layer feeder for feeding a lower layer material so as to be able to run; A surface layer material feeder configured to travel and run along with the lower layer material feeder to supply the surface layer material; A lower layer re-slipper installed on a rear side of the lower layer feeder to form a lower layer by laying the lower layer material supplied from the lower layer material feeder on the road surface; And a surface layer re-slipper installed to travel rearward of the lower layer re-slipper to form a surface layer by providing a surface layer material supplied from a surface layer material feeder; The lower layer re-submerging device includes a lower layer re-hopper in which a lower layer material transferred from a lower layer material feeder is stored and a lower layer material discharge port is formed at a lower portion thereof, a lower layer material hopper disposed at a rear portion of the lower layer material discharge port, A relay hopper for storing a surface layer material conveyed from the surface layer material feeder and a relay conveyor for conveying a surface layer material of the relay hopper to a surface layer re-slipper, wherein the lower layer material feeder comprises a lower layer material storage portion And a lower layer material conveyor for conveying the stored lower layer material to a lower layer re-hopper of the lower layer re-submerger, wherein the surface material feeder comprises a surface layer material storing part for storing the surface material and a surface layer material storing part for storing the surface material, And a surface layer re-conveying conveyor for conveying the surface layer re-conveying to the relay hopper, A surface layer re hopper in which a surface layer material discharged from a relay conveyor of a lower layer re-submersing device is stored, a surface layer re-hopper in which a surface layer material discharge port is formed at a lower portion thereof, and a surface layer screed which is provided at a rear portion of the surface layer material discharge port, And a position sensing sensor for sensing a position of a corresponding hopper is disposed on one side of each of the conveyors to detect a change in position of the hopper, And the angle of the left and right of each conveyor can be automatically adjusted in accordance with the height of the conveyor.

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According to another preferred embodiment of the present invention, there is provided a two-layer simultaneous laying apparatus characterized in that the relay conveyor is provided with a heating unit.

According to another preferred embodiment of the present invention, there is provided a two-layer simultaneous laying apparatus characterized in that a plurality of support rollers are provided under the belt of the relay conveyor, and the heating unit is a heating seal provided inside the support roller.

According to another preferred embodiment of the present invention, there is provided a road pavement method using the two-layer simultaneous laying apparatus, wherein (a) the lower layer material feeder feeds the lower layer material to the lower layer material infiltrator, Conveying the ash to the lower layer re-slurryer; (b) transporting the surface layer material supplied to the lower layer re-submersing device to the surface layer re-submersing device, wherein the lower layer re-submersing device forms a lower layer by laying a lower layer material on the road surface; And (c) forming a surface layer on the upper layer by laying a surface layer on the upper layer; The present invention provides a road paving method using a two-layer simultaneous laying apparatus.

According to another preferred embodiment of the present invention, there is provided a road paving method using a two-layer simultaneous laying apparatus, wherein a tack coat is installed above the road surface before the lower layer is laid in the step (b).

According to the present invention, it is possible to arrange the lower layer re-spreading unit and the surface layer re-spreading unit in a row in the rear of the lower layer feeder and the surface layer feeder at the time of pavement so that they can be simultaneously driven at the same speed. Accordingly, since the surface layer material can be directly installed immediately after the lower layer material is laid, the road pavement operation can be performed very quickly by the simultaneous construction of the lower layer and the surface layer.

According to the present invention, since the surface layer material can be bonded to the upper surface of the lower layer material having excellent adhesive strength before curing the lower layer material, it is not necessary to separately form a tack coat layer for improving adhesion between the underlayer material and the surface layer material. Therefore, it is economical to reduce the air and construction cost required for forming a tack coat layer.

1 is a view showing a conventional road paving method;
2 is a cross-sectional view showing a road pavement layer according to the prior art;
3 is a side view showing a two-layer simultaneous laying apparatus of the present invention.
4 is a sectional view showing a road pavement layer using a two-layer simultaneous laying apparatus of the present invention.
5 is a cross-sectional view showing a process of simultaneously forming a lower layer and a surface layer.
6 is a view showing a process in which a lower layer material is supplied to a lower layer reinforcement device.
7 is a view showing a process in which a surface layer material is supplied to a surface layer re-slurrying machine via a lower layer soil erosion machine;
8 is a plan view showing a state in which each conveyor rotates in a curved section;
9 is a side view showing a relay conveyor equipped with a heating unit.

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

4 is a cross-sectional view showing a road pavement layer using the two-ply simultaneous laying apparatus of the present invention, and Fig. 5 is a view showing a process of simultaneously forming a lower layer and a surface layer Sectional view.

As shown in FIG. 3, the two-layer simultaneous laying apparatus of the present invention comprises a lower layer feeder 1 for supplying a lower layer material 10 so as to be able to run; A surface layer material feeder (2) configured to travel and run along with the lower layer material feeder (1) to supply the surface layer material (20); A lower layer re-laying machine 3 which is provided so as to be able to run rearward of the lower layer material feeder 1 and which feeds the lower layer material 10 supplied from the lower layer material feeder 1 to the road surface A to form the lower layer B ); And a surface layer submerser (4) provided so as to be able to run rearward of the lower layer repositioner (3) to form a surface layer (C) by supplying the surface layer material (20) supplied from the surface layer material feeder (2); . ≪ / RTI >

That is, in the two-layer simultaneous laying apparatus of the present invention, the lower layer re-laying machine 3 and the surface layer re-laying machine 4 are arranged in a row behind the lower layer material feeder 1 and / or the surface layer material feeder 2, So that they can travel simultaneously at the same speed. 5, the surface layer material 20 is laid immediately after the lower layer material 10 is laid on the road surface A in the lower layer re-laying machine 3, B) and the surface layer (C), so that the road paving construction can be performed very quickly.

The lower layer material feeder 1 and the surface layer material feeder 2 may be operated separately from each other or may be constituted by only one piece of equipment.

In Fig. 3, the arrow indicates the road pavement direction, that is, the equipment running direction of the two-layer simultaneous laying apparatus.

In addition, since the surface layer material 20 is disposed immediately before curing of the lower layer material 10, the lower layer material and the surface layer material are well bonded by the excellent adhesive force of the lower layer material 10. Therefore, it is not necessary to separately install a tack coat on the lower layer material 10 as shown in FIG. 4, thereby reducing the material cost.

Of course, it is possible to increase the adhesion between the lower layer material 10 and the road surface A by forming a tack coat layer D on the road surface A before the lower layer material 10 is laid.

FIG. 6 is a view showing a process of supplying a lower layer material to a lower layer re-submersing device, and FIG. 7 is a view showing a process of supplying a surface layer material to a surface layer re-submersing device via a lower layer material sub-

The surface layer material feeder 2 can supply the surface layer material 20 to the surface layer re-slurry machine 4 through the lower layer soil remover 3.

The surface layer material 20 may be supplied directly to the surface layer removers 4 behind the lower layer re-laying machine 3 across the lower layer re-laying machine 3 from the surface layer material feeder 2. In this case, however, there is a problem in that the conveying load for conveying the surface layer 20 is increased.

Accordingly, in the present invention, the surface layer material 20 is supplied from the surface layer material feeder 2 to the surface layer re-slurry machine 4 via the lower layer re-slurry machine 3 so that the lower layer re- ) Was relayed.

7, the lower layer re-submersing device 3 includes a lower layer hopper 31 in which a lower layer material 10 delivered from a lower layer material feeder 1 is stored and a lower layer material discharge port is formed, A lower layer screed 32 disposed at the rear of the lower layer material discharge port and for discharging the discharged lower layer material 10, a relay hopper 33 for storing the surface layer material 20 transferred from the surface layer material feeder 2, And a relay conveyor 34 for conveying the surface layer 20 of the relay hopper 33 to the surface layer submerger 4.

That is, the lower layer re-slurry machine 3 includes a lower layer hopper 31, a lower layer screed 32 and a surface layer material 20 for receiving and transporting the lower layer material 10, 4 and the relay hopper 33 and the relay conveyor 34. [

The surface layer material 20 is firstly transferred from the surface layer material feeder 2 to the intermediate hopper 33 of the lower layer material submerging machine 3 and then transferred to the surface layer material 20 of the secondary hopper 33, Is conveyed to the rear surface soil removers (4) via the relay conveyor (34) of the lower layer repositioner (3).

The lower layer material feeder 1 includes a lower layer material storing portion 11 for storing the lower layer material 10 and a lower layer material conveying portion 11 for transporting the stored lower layer material 10 to the lower layer re hopper 31 of the lower layer re- Wherein the surface layer material feeder 2 comprises a surface layer material storing section 21 for storing the surface layer material 20 and a surface layer material 20 for storing the surface layer material 20 in the lower layer re- And a surface layer re-conveying conveyor 22 for conveying the surface layer material to the transfer hopper 33. The surface layer re-laying machine 4 is provided with a surface layer material 20 transferred from the relay conveyor 34 of the lower layer re- A surface layer hopper 41 in which a surface layer material discharge port is formed at the bottom and a surface layer material layer 42 disposed at the rear of the surface layer material discharge port and which discharges the surface layer material 20 .

The lower layer material 10 supplied from the truck is put into the lower layer material storage portion 11 of the lower layer material feeder 1. [ As shown in FIG. 6, the lower layer material 10 is conveyed to the lower layer re hopper 31 through the lower layer material conveying conveyor 12.

The lower layer material 10 in the lower layer hopper 31 is discharged through the lower layer material discharge port formed in the lower portion of the lower layer hopper 31 and is installed on the road surface A through the lower layer layer screed 32 on the rear side.

A vibrator capable of vibrating the lower layer material 10 installed at the rear of the lower layer screed 32 of the lower layer reedulator 3 may be provided.

The surface layer material 20 supplied from the truck is fed to the surface layer material storage portion 21 of the surface layer material feeder 2 and is conveyed to the relay hopper 33 through the surface layer material conveyor 22.

The surface layer material 20 in the relay hopper 33 is moved along the relay conveyor 34 to the surface layer re hopper 41 of the surface layer repositioner 4 rearward.

Next, the surface layer material 20 is placed on the lower layer material 10 through the surface layer screed 42 through the surface layer material outlet formed in the lower part of the hopper 41.

A vibrator capable of vibrating the surface layer material 20 installed at the rear of the surface layer screed 42 of the surface layer re-submersing device 4 may be provided.

8 is a plan view showing a state in which each conveyor rotates in a curve section.

As shown in FIG. 8, the lower layer material conveying conveyor 12, the surface layer material conveying conveyor 22, and the relay conveyor 34 can be configured to be rotatable from side to side.

The lower layer material feeder 1 and / or the surface layer material feeder 2, the lower layer material re-spreading machine 3 and the surface layer re-slurry machine 4 are arranged in order from the front, The lower layer material 10 and the surface layer material 20 are laid.

At this time, the lower layer re-conveying conveyor 12, the surface layer re-conveying conveyor 22, and the relay conveyor 34 are rotated right and left at an appropriate angle according to the curvature of the road, The side end portion where the material of the conveyor 22 and the relay conveyor 34 are dropped and the material of the material that can be generated due to the mismatch of the positions of the lower layer hopper 31, the relay hopper 33 and the surface layer hopper 41, The loss can be prevented.

Therefore, the road can be packed on the curved road as well as on the straight road by laying the surface layer 20 immediately after the lower layer material 10 is laid and forming the lower layer B and the surface layer C at the same time.

In addition, a position sensor (not shown) for detecting the position of the corresponding hopper 31, 33, 41 is provided at one side of each of the conveyors 12, 22, 34 to detect the positions of the hoppers 31, The left and right angles of the conveyors 12, 22, and 34 can be automatically adjusted according to the change.

The position of the lower layer re hopper 31, the relay hopper 33 and the surface layer re hopper 41 is detected at one side of the lower layer material conveying conveyor 12, the surface layer material conveying conveyor 22 and the relay conveyor 34, A position detection sensor may be provided.

The position sensor is connected to each of the lower layer material conveying conveyor 12, the surface layer material conveying conveyor 22 and the relay conveyor 34 according to the position of the lower layer re hopper 31, the relay hopper 33 and the surface layer hopper 41, Can be adjusted.

For this, each of the conveyors 12, 22 and 34 may be provided with a driving unit for rotating the conveyor. The control unit may drive the driving unit according to the position of the hoppers 31, 33 and 41 transmitted from the position sensor .

In the case where the position sensor is provided as described above, only an operator for traveling is required in each equipment, and a separate personnel for adjusting the conveyors 12, 22, and 34 are unnecessary. Therefore, the workforce can be reduced, which is economical.

9 is a side view showing a relay conveyor equipped with a heating unit.

The relay conveyor 34 may include a heating unit 343.

Layer simultaneous laying apparatus according to the present invention is characterized in that the surface layer material 20 is not directly supplied from the surface layer material feeder 2 to the surface layer re-slurry machine 4 but directly to the surface layer re-slurry machine 4 via the lower layer re- Lt; / RTI >

Therefore, it is possible that the surface layer 20 may be cooled down through this series of transfer processes.

Therefore, by providing the heating portion 343 in the relay conveyor 34 to which the surface layer 20 is fed, the heating portion 343 can heat the surface layer 20 to prevent the surface layer 20 from being cooled Respectively.

The heating unit 343 may be implemented by various embodiments. For example, the heating unit 343 may be configured to supply hot air or the like to the upper surface of the relay conveyor 34.

9, a plurality of support rollers 342 are provided under the belt 341 of the relay conveyor 34, and the heating unit 343 is heated by the heating provided inside the support roller 342, Rods.

The relay conveyor 34 may include a belt 341 for conveying the surface layer 20 and a plurality of support rollers 342 for supporting the belt 341 under the belt 341.

As another example of the heating unit 343, a heating rod provided inside the support roller 342 may be used.

The heat of the heated support roller 342 heats the belt 341 and the belt 341 is heated by heating the support roller 342 by inserting a heating rod heated by electric power or the like inside the support roller 342, To the surface material 20 on the upper side.

In addition, the present invention further includes a road pavement method using the two-layer simultaneous laying apparatus.

The method for paving roads using the two-layer simultaneous laying apparatus according to the present invention is characterized in that (a) the lower layer feeder 1 transports the lower layer material 10 to the lower layer re-laying machine 3, (20) to the lower layer re-slurry machine (3); (b) The lower layer repositioner 3 forms the lower layer B by laying the lower layer material 10 on the road surface A, while the surface layer material 20 supplied to the lower layer re- To the surface layer remover (4); (C) forming a surface layer (C) by laying a surface layer material (20) on the upper layer (B) of the surface layer repositioner (4); . ≪ / RTI >

Here, in the two-layer simultaneous laying apparatus, the surface layer material feeder 2 transfers the surface layer material 20 through the lower layer re-laying machine 3 in order to reduce the conveying burden of the surface layer re-conveying conveyor 22, (4).

In the step (b), the lower layer B is formed on the road surface A, and the surface layer material 20 is transferred to the surface layer remover 4, and in the step (c) The surface layer 20 is laid to form the surface layer C. [

Particularly, the lower layer re-submersible device 3 and the surface layer re-submersing device 4 are arranged in a line and run at the same time to form the lower layer B and the surface layer C almost at the same time.

After the surface layer 20 is laid, the top surface can be finished by compaction of the surface with a road roller or the like.

In the step (b), the tack coat may be installed on the road surface A before the lower layer material 10 is installed to improve the adhesion between the lower layer material 10 and the road surface A.

1: Lower layer material feeder 10: Lower layer material
11: lower layer material storage part 12: lower layer material conveying conveyor
2: surface layer material feeder 20: surface layer material
21: surface layer re-storage unit 22: surface layer conveying conveyor
3: Lower layer re-slurrying machine 31: Lower layer re-hopper
32: lower layer rescue 33: relay hopper
34: Relay conveyor 341: Belt
342: Support roller 343: Heating part
4: Surface layer repositioner 41: Surface layer hopper
42: surface layer rescue A: road surface
B: lower layer C: surface layer
D: tack coat layer

Claims (10)

A lower layer feeder 1 for feeding the lower layer material 10 so as to be able to run;
A surface layer material feeder (2) configured to travel and run along with the lower layer material feeder (1) to supply the surface layer material (20);
A lower layer re-laying machine 3 which is provided so as to be able to run rearward of the lower layer material feeder 1 and which feeds the lower layer material 10 supplied from the lower layer material feeder 1 to the road surface A to form the lower layer B ); And
A surface layer re-slurry machine (4) provided so as to be able to run rearward of the lower layer re-slurry machine (3) and laying the surface layer material (20) supplied from the surface layer material feeder (2) to form a surface layer (C); As shown in FIG.
The lower layer re-submersing device 3 includes a lower layer hopper 31 in which a lower layer material 10 transferred from a lower layer material feeder 1 is stored and a lower layer material discharge port is formed at a lower portion thereof, A lower layer rescue 32 for laying out the discharged lower layer material 10; a relay hopper 33 for storing the surface layer material 20 transferred from the surface layer material feeder 2; And a relay conveyor (34) for conveying the ashes (20) to the surface layer re-slurry machine (4)
The lower layer material feeder 1 includes a lower layer material storing portion 11 for storing the lower layer material 10 and a lower layer material conveying portion 11 for transporting the stored lower layer material 10 to the lower layer re hopper 31 of the lower layer re- A conveying conveyor 12,
The surface layer material feeder 2 is provided with a surface layer material storage portion 21 for storing the surface layer material 20 and a surface layer material transporting the stored surface layer material 20 to the relay hopper 33 of the lower layer re- And a conveyor 22,
The surface layer re-submersing device 4 includes a surface layer hopper 41 in which the surface layer material 20 transferred from the relay conveyor 34 of the lower layer re-submersing device 3 is stored, And a surface layer screed (42) provided at the rear of the re-ejection port to lay the ejected surface layer material (20)
The lower layer material conveying conveyor 12, the surface layer material conveying conveyor 22 and the relay conveyor 34 are provided so as to be rotatable in the left and right direction, and the hoppers 31, 33 and 41 to detect the position of the hoppers 31, 33 and 41 and to adjust the left and right angles of the conveyors 12, 22 and 34 automatically Wherein the two-layer simultaneous laying apparatus is constructed so that the two-layer simultaneous laying apparatus.
delete delete delete delete delete The method of claim 1,
Wherein the relay conveyor (34) is provided with a heating unit (343).
8. The method of claim 7,
Wherein a plurality of support rollers 342 are provided under the belt 341 of the relay conveyor 34 and the heating unit 343 is a heating seal provided inside the support roller 342. [ Installation device.
A road paving method using the two-layer simultaneous laying apparatus according to claim 1,
(a) the lower layer material feeder 1 feeds the lower layer material 10 to the lower layer material submerger 3 while the surface layer material feeder 2 feeds the surface material 20 to the lower layer re- 3);
(b) The lower layer repositioner 3 forms the lower layer B by laying the lower layer material 10 on the road surface A, while the surface layer material 20 supplied to the lower layer re- To the surface layer remover (4); And
(c) forming a surface layer (C) by laying the surface layer material (20) on the upper layer (B) of the surface layer repositioner (4); Wherein the two-layer simultaneous laying apparatus is used for a road paving method.
The method of claim 9,
Wherein the tack coat is installed above the road surface (A) before the lower layer material (10) is installed in the step (b).

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