KR101628490B1 - Retaining wall Make coating method - Google Patents

Abstract

The present invention relates to a method of applying a synthetic stone layer of a reinforced soil block for a retaining wall, and more particularly, to a method of applying a synthetic stone layer to a reinforcing soil block for retaining walls, In order to simplify the application of the coating liquid of the artificial stone layer formed on the front surface of the reinforcing block for reinforcing earth retaining wall construction and to improve the uniform coating quality,
A plurality of reinforcing soil blocks for retaining wall are stacked on the moving plate so as to expose the front part to both sides so as to move the moving plate or to move the column bars for spraying the coating liquid to both front sides of the reinforcing soil block, It is possible to easily apply the front surface portion of a plurality of laminated reinforcing soil blocks to the front surface of the reinforcing soil block by the worker so that the workability can be improved, So that the application amount applied to the front portion of the reinforced soil block can be controlled and the application amount can be made uniform as a whole, thereby improving the quality of the applied layer and improving the productivity by allowing the front portion of the reinforced soil block to be applied all at once There is an advantage to be able to.

Description

Retaining Wall Make coating method of reinforcing soil block for retaining wall {

The present invention relates to a method of applying a synthetic stone layer of a reinforced soil block for a retaining wall, and more particularly, to a method of applying a synthetic stone layer to a reinforcing soil block for retaining walls, The present invention relates to a method of coating a synthetic resin layer formed on a front surface of a reinforcing block for reinforcing earth retaining wall construction and improving the coating quality to be applied uniformly.

Generally, the retaining wall is piled up to prevent the collapse of the cut-out like a cliff when building a road or building a slope,

These retaining walls are usually constructed by pouring concrete or constructing a retaining wall by piling up reinforced concrete blocks which are concrete bricks. In the case of concrete pouring materials or bricks, gray or red (in case of red brick) So that it is not harmonized with the surrounding colors in the construction state, and the aesthetics are damaged.

The reinforcing soil block for retaining wall is constructed with a retaining wall block formed with a predetermined size and a grid reinforcing material (grid, tie back, etc.) or a stiffening material. The advantage of the reinforcing earth retaining wall is that the structural safety of the construction and quality control of the embankment are easy, The load is uniformly distributed due to the mutual binding between the soil and the clay soil by the stiffener or the stiffener, and it is strong against the resistance of the uneven settlement and is economical.

However, the addition of pigments has been known to cause other side effects. Therefore, it is urgently required to develop an alternative means without side effects. .

In other words, in the conventional case, it is possible to obtain a desired color by adding pigments to improve the appearance of the retaining wall. However, since the value of the added pigment is high and the burden of rising cost is large and it is mixed with concrete, When exposed to ultraviolet rays due to sunlight, there is a problem of discoloration and discoloration along with the passage of time. Also, there is a problem that the strength of the brick is lowered by adding the pigment, and when the concrete material mixed with the pigment of a specific color remains after the brick It is also pointed out that the color is slightly irregular depending on the bricks produced.

However, since most of the blocks for constructing the reinforced earth retaining wall are made of concrete mortar as a raw material, they have a sufficient strength required by the reinforcing earth block for the retaining wall in terms of structure. On the other hand, It is a problem that the edge is broken by the aging phenomenon and it is completely different from the flat shape at the time of construction of the retaining wall, and it is broken and changed into a horrible state, and the whitening phenomenon of the concrete occurs and the surrounding environment of the reinforcing earth retaining wall is damaged .

In order to solve such a problem, a reinforcing soil block for a retaining wall is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0010156 (published on Mar. 11, 2011) Layer ", the texture of the natural stone powder is displayed more clearly on the front surface of the block for building the retaining wall, and it can be applied with the uniform color at the same time. The artificial stone material is not mixed with water, It is possible to reduce the waste of the material because it can be applied, and also it is possible to obtain the material of the kneaded material by kneading artificial stone at the site of the reinforced earth retaining wall which is previously installed and then to partially repair the material by using the trowel, The purpose of this study was to provide artificial stone layers that can be maintained and maintained as it was at the time.

However, the reinforced soil block for retaining wall is formed by applying the artificial stone material with the trowel to the front of the worker, which requires the worker's working time and labor. Therefore, depending on the cause of the increase of the cost and the skill of the worker, Because it requires a lot of experienced labor force, it is difficult to raise the labor cost.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a reinforced concrete block for a retaining wall, In order to solve the problem that the worker raises the labor cost in the work,

A plurality of reinforcing soil blocks for retaining walls are stacked on a moving plate such that front portions thereof are exposed on both sides so that the moving plate can be moved by the motor through the moving plate rail and moved to both sides of the reinforcing soil block by the motor via the pillar barrel A plurality of reinforcing soil blocks provided at the upper part of the moving plate are moved forward and backward along the moving plate rail so that the coating liquid supplied from the pump is connected to the spraying valve, In which a sprayable liquid can be sprayed onto the front surface of the reinforced soil block and applied to the front surface of the reinforced soil block, can be automated by continuous operation .

A moving plate rail 25 is formed at an upper center of the worktable 11 and a rail groove 24 is formed on the bottom surface of the moving plate rail 25 so as to be movable along the moving plate rail 25. In order to achieve the above object, A plurality of protrusions 21 are formed on the upper surface of the moving plate 20 and a moving unit 22 provided with a screw hole 23 is protruded from the bottom of the moving plate 20 A plurality of reinforcing soil blocks 1 are connected to the front portion 2 on both sides of the protrusions 21 of the moving plate 20 by connecting ends of the screw rods 15 connected to the through holes 23 to the motors 14, A stacking step of stacking the stacked layers so as to be exposed;
A column bar 30 is provided on both sides of the moving plate 20 after the laminating process and a rail bar 39 is formed on the bottom surface of the column bar 30. The column bar 30 is movable along the column barrel 31, And an end of a threaded rod 15 'which connects the threaded hole 23 to the motor 14' is connected to a connecting rod 37 having a threaded hole 38 formed at one side of the columnar bar 30 A moving plate transferring step of moving the moving plate 20 along the screw rod 15 by the moving part 22 fastened to the screw rod 15 by the operation of the motor 14;
A rotating hole 32 having an opening is formed on one side of the opposite side of the side post 30 which has been subjected to the moving plate transporting process and a hose hole 45 is formed on a lower side of the rotating hole 32, A rotation shaft 41 is formed on the upper surface of the rotation bar 40 so that the rotation motor 33 is connected to the rotation bar 40 and fixed by a fixing screw 34, The height of the nozzle 42 exposed to the pillar bar 30 and the height of the nozzle 42 exposed to the pillar 30 are adjusted by adjusting the height of the rotary motor 33 by the fixing holes 36 formed at the fixed plate 35, And a rotary motor 33 is fixed to the fixing hole 36 of the fixing plate 35 at one side of the upper surface of the column bar 30, The upper rotary motor 33 of the columnar bar 30 is operated to rotate the rotary bar 40 provided in the rotary hole 32 of the columnar bar 30 in the rotary hole 32 of the columnar bar 30 Hoejeonbong rotation step of reciprocal rotation in a direction;
A hose 13 is connected to the pump 12 through a hose hole 45 and is exposed to the outside through a plurality of nozzles 42 in the rotating rod 40 that has been subjected to the rotation process of the rotating bar. Is provided with a valve 43 for allowing the nozzle bar 42 to be injected from the nozzle 42 so that the motor 14 'connected to the column bar 30 is operated to move the column bar 30 to the column barrel 31);
Both sides of the pump 12 connected to the rotary bar 40 through the hose 13 are operated while the moving plate transferring process is performed so that the rotary bar 40 provided in the rotary hole 32 of the post 30 through the hose 13 The coating liquid sprayed onto the nozzle 42 along the hose hole 45 of the nozzle 40 is composed of 10 to 20% by weight of a water-soluble epoxy, 20 to 40% by weight of colored silica (baked with an inorganic pigment of 900 캜 in sio2) , 0.1 to 0.5% by weight of a surfactant, and 4% by weight of fresh water (H2O), wherein the end portion of the nozzle (42) is composed of 20 to 40% The inclined slope 44 may be provided so that the coating liquid sprayed from the nozzle 42 is sprayed along the slope of the slanting lid 44 and the coating amount of the coating liquid applied by the valve 43 can be adjusted The nozzle 42 is opened and closed, and the coating liquid is sprayed onto the front side of both sides of the laminated reinforced soil block 1, .

A moving plate 20 having a moving plate rail 25 formed at the upper center of the work table 11 and having a rail groove 24 movable along the moving plate rail 25 is provided, A plurality of projections 21 are formed on the upper surface of the moving plate 20 and a moving part 22 provided with a screw hole 23 is protruded from the lower part of the moving plate 20, A lamination step of connecting the end of the reinforcing soil block 1 to the motor 14 and stacking a plurality of reinforcing soil blocks 1 on the protrusions 21 of the moving plate 20 so that the front part 2 is exposed on both sides;
A column bar 30 is provided on both sides of the moving plate 20 after the laminating process and a rail bar 39 is formed on the bottom surface of the column bar 30. The column bar 30 is movable along the column barrel 31, And an end of a threaded rod 15 'which connects the threaded hole 23 to the motor 14' is connected to a connecting rod 37 having a threaded hole 38 formed at one side of the columnar bar 30 A moving plate transferring step of moving the moving plate 20 along the screw rod 15 by the moving part 22 fastened to the screw rod 15 by the operation of the motor 14;
A rotating hole 32 having an opening is formed on one side of the opposite side of the side post 30 which has been subjected to the moving plate transporting process and a hose hole 45 is formed on a lower side of the rotating hole 32, A rotation shaft 41 is formed on the upper surface of the rotation bar 40 so that the rotation motor 33 is connected to the rotation bar 40. The rotation bar 33 is fixed by a fixing screw 34, A rotary motor 33 is fixed to one of the fixing holes 36 of the fixing plate 35 to operate the upper rotary motor 33 of the column bar 30 to rotate the rotary shaft 33 of the column bar 30 A rotary bar rotating process for reciprocally rotating the rotary bar 40 provided in the rotary shaft 32 in the rotary hole 32 of the post 30 in both directions;
A hose 13 is connected to the pump 12 through a hose hole 45 and is exposed to the outside through a plurality of nozzles 42 in the rotating rod 40 that has been subjected to the rotation process of the rotating bar. Is provided with a valve 43 for allowing the nozzle bar 42 to be injected from the nozzle 42 so that the motor 14 'connected to the column bar 30 is operated to move the column bar 30 to the column barrel 31);
Both sides of the pump 12 connected to the rotary bar 40 through the hose 13 are operated while the moving plate transferring process is performed so that the rotary bar 40 provided in the rotary hole 32 of the post 30 through the hose 13 40 to 50% by weight of an acrylic resin and 50 to 60% by weight of a silica sol, wherein the silica sol has a solids content of 50 to 80% by weight, And 20 to 50% by weight of a vehicle material. The coating liquid contains 20 to 40% by weight of white silica sand, 30 to 50% by weight of colored silica sand, 0.5 to 10% by weight of calcium carbonate, And an additive of 0.5 to 10% by weight of mite. An inclined slope 44 is provided at an end of the nozzle 42, and a coating liquid sprayed from the nozzle 42 is supplied to the slope lid 44 So that the coating amount of the coating liquid applied by the valve 43 can be adjusted Enabling the opening and closing of the nozzle (42) is characterized in that after completing the injection process for injecting the coating liquid on both sides of the front panel by laminating a reinforced soil blocks (1).

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Therefore, as described above, the reinforcing soil block for a retaining wall is stacked on the moving plate so that the front portion is exposed on both sides to move the moving plate, or the column bar for spraying the coating liquid on both front sides of the reinforcing soil block can be moved The application liquid is applied to the front portion of the reinforcing soil block,

The work of applying the coating liquid to the front portion of the reinforcing soil block by the operator can easily apply the front portion of the stacked reinforcing soil blocks to each other, thereby improving workability and controlling the moving speed and moving distance by the motor The application amount applied to the front portion of the reinforced soil block can be adjusted and the application amount can be made uniform as a whole to thereby improve the quality of the application and the advantage that productivity can be improved by applying the front portion of a large amount of the reinforced soil blocks at a time .

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is an exemplary view showing a cross-sectional state of the present invention
3 is a perspective view showing an embodiment of the present invention.
Fig. 4 is an exploded perspective view showing a recessed state of the present invention
Figure 5 is an illustration of an activated state of the present invention
FIG. 6 is an exemplary view showing the bottom state of the moving plate of the present invention. FIG.

1, a plurality of reinforcing soil blocks 1 for retaining walls are stacked on a moving plate 20 so as to expose front parts 2 on both sides, The structure of the coating apparatus 10 for spraying the coating liquid on the front surface portion of the reinforcing soil block 1 to produce the artificial stone layer 3 is not limited to the structure,

A moving plate 20 having a moving plate rail 25 formed at an upper center of the work table 11 and having a rail groove 24 movable along the moving plate rail 25 is provided on the bottom surface,

A plurality of projections 21 are formed on the upper surface of the moving plate 20 and a moving part 22 provided with a screw hole 23 is protruded from the lower part of the moving plate 20 to connect with the screw hole 23 The end of the screw rod 15 is connected to the motor 14,

A column bar (30) is provided at both sides of the moving plate (20) and a column bar (31) is provided to form a rail groove (39) movable along the column barrel (31) The end of a screw rod 15 'which connects a connecting rod 37 formed with a screw hole 38 and connects to the screw hole 23 is connected to a motor 14'

A rotating hole 32 having an opening is formed on one side of the opposite side of the both side pillars 30 and a hose hole 45 is formed on a lower side of the rotating hole 32,

A rotary shaft 40 is formed in the rotary hole 32 and a rotary groove 41 is formed on an upper surface of the rotary shaft 40 to connect the rotary motor 33 and fix the rotary shaft with a fixing screw 34,

A rotary motor 33 is fixed to a fixing hole 36 of the fixing plate 35 at one side of the upper surface of the column bar 30 to allow the rotary bar 40 to rotate by the rotation of the rotary motor 33,

A hose 13 connected to the pump 12 is provided in the rotation bar 40 through a hose hole 45 and exposed to the outside through a plurality of nozzles 42 to provide a valve 43 at one side .

A plurality of fixing holes 36 formed in the fixing plate 35 may be formed at regular intervals to adjust the height of the rotary motor 33 so that the height of the nozzle 42 exposed to the pillar 30 and the height of the reinforcing soil block 1 Can be easily adjusted with respect to the front face portion 2 of the display device.

An inclined slope 44 is provided at the end of the nozzle 42 so that the application liquid sprayed from the nozzle 42 is sprayed along the slope of the slope lid 44.

A plurality of protrusions 21 are formed on the upper surface of the moving plate 20 so that a plurality of reinforcing soil blocks 1 provided on the upper surface of the moving plate 20 are not in close contact with the front surface of the moving plate 20, , ≪ / RTI >

The size of the moving plate 20 is set such that a plurality of pieces of the reinforcing soil block 1 are stacked and smaller than the front portion 2 so that the coating liquid sprayed by the nozzle 42 is sprayed to be applied to the front portion 2, It is possible to prevent the coating liquid from coming into contact with the reinforcing soil block 1 by the protrusion 21 even if it flows down beforehand.

When the coating liquid is coated on the front portion 2 of the reinforcing soil block 1 and cured, the artificial stone layer 3 is formed.

When the coating liquid flows down from the front portion 2 of the reinforced concrete block 1 to the moving plate 20 during curing, the reinforcing soil block 1 after the coating operation is moved to a desired place, The reinforcing soil block 1 is prevented from coming into contact with the side surface of the reinforcing soil block 1 when the coating liquid flowing down to the moving plate 20 is stacked.

The other side of the screw rods 15 and 15 'connected to the motors 14 and 14' is connected to a bearing 16 and fixed to the upper surface of the work table 11.

The rotation motor 33 connected to the upper portion of the rotation bar 40 is capable of rotating in both directions so that the rotation bar 40 can be reciprocated within the rotation hole 32 of the bar 30.

The coating liquid to be applied to the front surface portion 2 of the reinforcing earth block 1 is applied with a thickness of 0.1 to 1 mm by using artificial stone material,

Wherein the coating liquid contains 20 to 40% by weight of water-soluble epoxy, 20 to 40% by weight of colored silica (baked with inorganic pigment of 900 캜 in sio2), 20 to 40% by weight of white silica (containing 97% or more of sio2) The coating liquid obtained by mixing and stirring 0.5 wt% of a surfactant, 0.1 to 0.5 wt% of a surfactant and 4 wt% of fresh water (H2O) into a pump 12 is injected into the pump 12 to spray the nozzle 42 of the pillar bar 30 through the hose 13 To the front face portion 2 of the reinforcing soil block 1 through the opening portion 2b.

As another example of the above-mentioned coating liquid, 20 to 40% by weight of water-soluble epoxy, 20 to 40% by weight of colored silica (baked with an inorganic pigment of 900 캜 in sio2), 20 to 40% 0.1 to 0.5% by weight of a defoamer, 0.1 to 0.5% by weight of a surfactant, and 4% by weight of fresh water (H2O).

The coating liquid is composed of 40 to 50% by weight of an acrylic resin and 50 to 60% by weight of an elastic material of silica.

In this case, the silica sol of the coating liquid is composed of 50 to 80% by weight of solid matter and 20 to 50% by weight of the vehicle, and the coating liquid contains 20 to 40% by weight of white silica sand relative to 100% 30 to 50% by weight of silica sand, 0.5 to 10% by weight of calcium carbonate and 0.5 to 10% by weight of ruthenium.

5, the moving plate rail 25 is formed at the center of the upper part of the work table 11 and the rail groove 24 movable along the moving plate rail 25 is formed on the bottom surface A plurality of projections 21 are formed on the upper surface of the moving plate 20 and a moving portion 22 having a screw hole 23 formed in the lower portion of the moving plate 20 is protruded And a plurality of reinforcing soil blocks 1 are provided on both sides of the protrusions 21 of the moving plate 20 on both sides of the front surface portion 2) are exposed;
A column bar 30 is provided on both sides of the moving plate 20 after the laminating process and a rail bar 39 is formed on the bottom surface of the column bar 30. The column bar 30 is movable along the column barrel 31, And an end of a threaded rod 15 'which connects the threaded hole 23 to the motor 14' is connected to a connecting rod 37 having a threaded hole 38 formed at one side of the columnar bar 30 A moving plate transferring step of moving the moving plate 20 along the screw rod 15 by the moving part 22 fastened to the screw rod 15 by the operation of the motor 14;
A rotating hole 32 having an opening is formed on one side of the opposite side of the side post 30 which has been subjected to the moving plate transporting process and a hose hole 45 is formed on a lower side of the rotating hole 32, A rotation shaft 41 is formed on the upper surface of the rotation bar 40 so that the rotation motor 33 is connected to the rotation bar 40 and fixed by a fixing screw 34, The height of the nozzle 42 exposed to the pillar bar 30 and the height of the nozzle 42 exposed to the pillar 30 are adjusted by adjusting the height of the rotary motor 33 by the fixing holes 36 formed in the fixing plate 35 at a predetermined interval, And a rotary motor 33 is fixed to the fixing hole 36 of the fixing plate 35 at one side of the upper surface of the column bar 30, The upper rotary motor 33 of the columnar bar 30 is operated to rotate the rotary bar 40 provided in the rotary hole 32 of the columnar bar 30 in the rotary hole 32 of the columnar bar 30 Hoejeonbong rotation step of reciprocal rotation in a direction;
A hose 13 is connected to the pump 12 through a hose hole 45 and is exposed to the outside through a plurality of nozzles 42 in the rotating rod 40 that has been subjected to the rotation process of the rotating bar. Is provided with a valve 43 for allowing the nozzle bar 42 to be injected from the nozzle 42 so that the motor 14 'connected to the column bar 30 is operated to move the column bar 30 to the column barrel 31);
Both sides of the pump 12 connected to the rotary bar 40 through the hose 13 are operated while the moving plate transferring process is performed so that the rotary bar 40 provided in the rotary hole 32 of the post 30 through the hose 13 The coating liquid sprayed onto the nozzle 42 along the hose hole 45 of the nozzle 40 is composed of 10 to 20% by weight of a water-soluble epoxy, 20 to 40% by weight of colored silica (baked with an inorganic pigment of 900 캜 in sio2) , 0.1 to 0.5% by weight of a surfactant, and 4% by weight of fresh water (H2O), wherein the end portion of the nozzle (42) is composed of 20 to 40% The inclined slope 44 may be provided so that the coating liquid sprayed from the nozzle 42 is sprayed along the slope of the slanting lid 44 and the coating amount of the coating liquid applied by the valve 43 can be adjusted The nozzle 42 is opened and closed, and the coating liquid is sprayed onto the front side of both sides of the laminated reinforced soil block 1, .

In another embodiment of the present invention, a movable plate rail 25 is formed at the center of the upper part of the work table 11 and a movable plate 20 A plurality of protrusions 21 are formed on the upper surface of the moving plate 20 and a moving part 22 provided with a screw hole 23 is protruded from the bottom of the moving plate 20, 23 are connected to the motor 14 and a plurality of reinforcing soil blocks 1 are exposed on both sides of the protrusions 21 of the moving plate 20 so that the front part 2 is exposed A lamination step of laminating the laminate so as to be laminated;
A column bar 30 is provided on both sides of the moving plate 20 after the laminating process and a rail bar 39 is formed on the bottom surface of the column bar 30. The column bar 30 is movable along the column barrel 31, And an end of a threaded rod 15 'which connects the threaded hole 23 to the motor 14' is connected to a connecting rod 37 having a threaded hole 38 formed at one side of the columnar bar 30 A moving plate transferring step of moving the moving plate 20 along the screw rod 15 by the moving part 22 fastened to the screw rod 15 by the operation of the motor 14;
A rotating hole 32 having an opening is formed on one side of the opposite side of the side post 30 which has been subjected to the moving plate transporting process and a hose hole 45 is formed on a lower side of the rotating hole 32, A rotation shaft 41 is formed on the upper surface of the rotation bar 40 so that the rotation motor 33 is connected to the rotation bar 40. The rotation bar 33 is fixed by a fixing screw 34, A rotary motor 33 is fixed to one of the fixing holes 36 of the fixing plate 35 to operate the upper rotary motor 33 of the column bar 30 to rotate the rotary shaft 33 of the column bar 30 A rotary bar rotating process for reciprocally rotating the rotary bar 40 provided in the rotary shaft 32 in the rotary hole 32 of the post 30 in both directions;
A hose 13 is connected to the pump 12 through a hose hole 45 and is exposed to the outside through a plurality of nozzles 42 in the rotating rod 40 that has been subjected to the rotation process of the rotating bar. Is provided with a valve 43 for allowing the nozzle bar 42 to be injected from the nozzle 42 so that the motor 14 'connected to the column bar 30 is operated to move the column bar 30 to the column barrel 31);
Both sides of the pump 12 connected to the rotary bar 40 through the hose 13 are operated while the moving plate transferring process is performed so that the rotary bar 40 provided in the rotary hole 32 of the post 30 through the hose 13 40 to 50% by weight of an acrylic resin and 50 to 60% by weight of a silica sol, wherein the silica sol has a solids content of 50 to 80% by weight, And 20 to 50% by weight of a vehicle material. The coating liquid contains 20 to 40% by weight of white silica sand, 30 to 50% by weight of colored silica sand, 0.5 to 10% by weight of calcium carbonate, And an additive of 0.5 to 10% by weight of mite. An inclined slope 44 is provided at an end of the nozzle 42, and a coating liquid sprayed from the nozzle 42 is supplied to the slope lid 44 So that the coating amount of the coating liquid applied by the valve 43 can be adjusted Enabling the opening and closing of the nozzle (42) to complete through a spraying process for spraying a coating liquid on both sides of the front panel by laminating a reinforced soil blocks (1).

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At this time, the coating liquid sprayed to the nozzle 42 can adjust the coating amount applied by the valve 43 provided at the end of the nozzle 42, and at the same time, the nozzle 42 can be opened and closed.

3, a plurality of reinforcing soil blocks 1 are stacked on the protrusions 21 of the moving plate 20 such that the front surface 2 is exposed on both sides of the protrusions 21, The moving plate 20 can be moved along the screw rod 15 by the moving part 22 fastened to the screw rod 15,

The pump 12 provided at both sides of the reinforced soil block 1 laminated so as to expose the front part 2 on both sides is operated to spray the coating liquid to the nozzle 42 of the rotation bar 40 through the hose 13 will be.

At this time, the coating liquid sprayed to the nozzle 42 can adjust the coating amount applied by the valve 43 provided at the end of the nozzle 42, and at the same time, the nozzle 42 can be opened and closed.

The inclination of the inclined shoulder 44 provided at the end of the nozzle 42 enables the application liquid sprayed from the nozzle 42 to be uniformly applied.

In another embodiment of the present invention, a plurality of reinforcing soil blocks 1 are stacked on the protrusions 21 of the moving plate 20 so that the front part 2 is exposed on both sides, and then the moving plate 20 is fixed after,

When the screw rod 15 'connected to the one connecting rod 37 of both the column bars 30 of the fixed moving plate 20 is operated by the motor 14', the connecting rod 37 'fastened to the screw rod 15' So that the column bar 30 can be moved along the column barrel 31. [

When the column bar 30 moves along the column barrel 31 and the front portion 2 of the reinforced concrete block 1 reaches the same line as the nozzle 42 of the column bar 30, And the valve 43 connected to the nozzle 42 protruding outside the rotation bar 40 is opened to connect the coating liquid to the inside of the rotation bar 40 through the hose 13 so that the coating liquid can be sprayed through the nozzle 42 After that,

The upper rotating motor 33 of the pillar bar 30 is operated to rotate the rotating bar 40 provided in the rotating hole 32 of the pillar bar 30 in the reciprocating hole 32 of the pillar bar 30 in both directions The nozzle 42 injected to the inclined portion of the front portion 2 of the reinforcing soil block 1 due to the rotation of the rotary bar 40 is made perpendicular to the inclined portion of the front portion 2, The coating liquid can be uniformly applied to the inclined portion of the substrate 2.

A plurality of reinforcing soil blocks 1 are stacked on both sides of the protrusions 21 of the moving plate 20 so that the front part 2 is exposed on both sides of the protrusions 21 of the moving plate 20, The pivot bar 20 is moved along the moving plate rail 25 by the pivot bar 15 and the motor 14 'is operated to move the pillar bar 30 to the pivot barrel 31 and the nozzles 42 exposed to the rotary bar 40. The spraying liquid is sprayed through the nozzles 42 exposed to the rotary bar 40. [

Further, in the structure of the present invention, a plurality of reinforcing soil blocks 1 are laminated on the projections 21 of the moving plate 20 so that the front part 2 is exposed on both sides

The operator can selectively operate the desired motor 14 or 14 'to select the moving plate 20 or the pillar bar 30,

The moving plate 20 and the column bar 30 are moved by the screw rods 15 and 15 'by operating both the moving plate 20 and the motors 14 and 14' connected to the column bar 30 The coating liquid is sprayed through the nozzle 42 while rotating the rotation bar 40 provided in the rotation hole 32 of the column bar 30 in both directions while moving the plate bar 25 along the column barrel 31 You can do it.

A plurality of reinforcing soil blocks 1 are stacked on the protrusions 21 of the moving plate 20 such that the front part 2 is exposed on both sides of the moving plate 20, A plurality of fixing holes 36 are formed in a fixing plate 35 for fixing the rotation motor 33 provided at the upper portion of the rotation bar 40. In the case where the nozzle 42 is not aligned with the rotation bar 40 provided in the rotary shaft 40, The rotary motor 33 is detachably fitted to the front portion 2 of the reinforcing soil block 1 so as to position the nozzle 42 on the same line as the front portion 2 of the reinforcing soil block 1. [

1: reinforced soil block 2: front part
3: Artificial stone layer 10: Coating device
11: Work table 12: Pump
13: Hose 14, 14 ': Motor
15,15 ': Nasaebong 16: Bearing
20: moving plate 21: projection
22: moving part 23, 38:
24, 39: rail groove 25: moving plate rail
30: pillar bar 31: pillar barrel
32: Rotary Motor 33: Rotary Motor
34: Fixing screw 35: Fixing plate
36: Fixed ball 37: Connecting rod
40: rotation rod 41: rotation groove
42: nozzle 43: valve
44: Slope freshly made 45: Hose ball

Claims (5)

A moving plate 20 having a moving plate rail 25 formed at the upper center of the work table 11 and having a rail groove 24 movable along the moving plate rail 25 is provided, A plurality of projections 21 are formed on the upper surface of the moving plate 20 and a moving part 22 provided with a screw hole 23 is protruded from the lower part of the moving plate 20, A lamination step of connecting the end of the reinforcing soil block 1 to the motor 14 and stacking a plurality of reinforcing soil blocks 1 on the protrusions 21 of the moving plate 20 so that the front part 2 is exposed on both sides;
A column bar 30 is provided on both sides of the moving plate 20 after the laminating process and a rail bar 39 is formed on the bottom surface of the column bar 30. The column bar 30 is movable along the column barrel 31, And an end of a threaded rod 15 'which connects the threaded hole 23 to the motor 14' is connected to a connecting rod 37 having a threaded hole 38 formed at one side of the columnar bar 30 A moving plate transferring step of moving the moving plate 20 along the screw rod 15 by the moving part 22 fastened to the screw rod 15 by the operation of the motor 14;
A rotating hole 32 having an opening is formed on one side of the opposite side of the side post 30 which has been subjected to the moving plate transporting process and a hose hole 45 is formed on a lower side of the rotating hole 32, A rotation shaft 41 is formed on the upper surface of the rotation bar 40 so that the rotation motor 33 is connected to the rotation bar 40 and fixed by a fixing screw 34, The height of the nozzle 42 exposed to the pillar bar 30 and the height of the nozzle 42 exposed to the pillar 30 are adjusted by adjusting the height of the rotary motor 33 by the fixing holes 36 formed at the fixed plate 35, And a rotary motor 33 is fixed to the fixing hole 36 of the fixing plate 35 at one side of the upper surface of the column bar 30, The upper rotary motor 33 of the columnar bar 30 is operated to rotate the rotary bar 40 provided in the rotary hole 32 of the columnar bar 30 in the rotary hole 32 of the columnar bar 30 Hoejeonbong rotation step of reciprocal rotation in a direction;
A hose 13 is connected to the pump 12 through a hose hole 45 and is exposed to the outside through a plurality of nozzles 42 in the rotating rod 40 that has been subjected to the rotation process of the rotating bar. Is provided with a valve 43 for allowing the nozzle bar 42 to be injected from the nozzle 42 so that the motor 14 'connected to the column bar 30 is operated to move the column bar 30 to the column barrel 31);
Both sides of the pump 12 connected to the rotary bar 40 through the hose 13 are operated while the moving plate transferring process is performed so that the rotary bar 40 provided in the rotary hole 32 of the post 30 through the hose 13 The coating liquid sprayed onto the nozzle 42 along the hose hole 45 of the nozzle 40 is composed of 10 to 20% by weight of a water-soluble epoxy, 20 to 40% by weight of colored silica (baked with an inorganic pigment of 900 캜 in sio2) , 0.1 to 0.5% by weight of a surfactant, and 4% by weight of fresh water (H2O), wherein the end portion of the nozzle (42) is composed of 20 to 40% The inclined slope 44 may be provided so that the coating liquid sprayed from the nozzle 42 is sprayed along the slope of the slanting lid 44 and the coating amount of the coating liquid applied by the valve 43 can be adjusted The nozzle 42 is opened and closed, and the coating liquid is sprayed onto the front side of both sides of the laminated reinforced soil block 1, Wherein the reinforcing soil block is formed of a synthetic resin.
delete delete A moving plate 20 having a moving plate rail 25 formed at the upper center of the work table 11 and having a rail groove 24 movable along the moving plate rail 25 is provided, A plurality of projections 21 are formed on the upper surface of the moving plate 20 and a moving part 22 provided with a screw hole 23 is protruded from the lower part of the moving plate 20, A lamination step of connecting the end of the reinforcing soil block 1 to the motor 14 and stacking a plurality of reinforcing soil blocks 1 on the protrusions 21 of the moving plate 20 so that the front part 2 is exposed on both sides;
A column bar 30 is provided on both sides of the moving plate 20 after the laminating process and a rail bar 39 is formed on the bottom surface of the column bar 30. The column bar 30 is movable along the column barrel 31, And an end of a threaded rod 15 'which connects the threaded hole 23 to the motor 14' is connected to a connecting rod 37 having a threaded hole 38 formed at one side of the columnar bar 30 A moving plate transferring step of moving the moving plate 20 along the screw rod 15 by the moving part 22 fastened to the screw rod 15 by the operation of the motor 14;
A rotating hole 32 having an opening is formed on one side of the opposite side of the side post 30 which has been subjected to the moving plate transporting process and a hose hole 45 is formed on a lower side of the rotating hole 32, A rotation shaft 41 is formed on the upper surface of the rotation bar 40 so that the rotation motor 33 is connected to the rotation bar 40. The rotation bar 33 is fixed by a fixing screw 34, A rotary motor 33 is fixed to one of the fixing holes 36 of the fixing plate 35 to operate the upper rotary motor 33 of the column bar 30 to rotate the rotary shaft 33 of the column bar 30 A rotary bar rotating process for reciprocally rotating the rotary bar 40 provided in the rotary shaft 32 in the rotary hole 32 of the post 30 in both directions;
A hose 13 is connected to the pump 12 through a hose hole 45 and is exposed to the outside through a plurality of nozzles 42 in the rotating rod 40 that has been subjected to the rotation process of the rotating bar. Is provided with a valve 43 for allowing the nozzle bar 42 to be injected from the nozzle 42 so that the motor 14 'connected to the column bar 30 is operated to move the column bar 30 to the column barrel 31);
Both sides of the pump 12 connected to the rotary bar 40 through the hose 13 are operated while the moving plate transferring process is performed so that the rotary bar 40 provided in the rotary hole 32 of the post 30 through the hose 13 40 to 50% by weight of an acrylic resin and 50 to 60% by weight of a silica sol, wherein the silica sol has a solids content of 50 to 80% by weight, And 20 to 50% by weight of a vehicle material. The coating liquid contains 20 to 40% by weight of white silica sand, 30 to 50% by weight of colored silica sand, 0.5 to 10% by weight of calcium carbonate, And an additive of 0.5 to 10% by weight of mite. An inclined slope 44 is provided at an end of the nozzle 42, and a coating liquid sprayed from the nozzle 42 is supplied to the slope lid 44 So that the coating amount of the coating liquid applied by the valve 43 can be adjusted Bla 42 open and close to enable the reinforced soil blocks (1) both sides of the front of the artificial stone layer coating method of the reinforced soil retaining wall block according to claim to completion through the spraying step of spraying the coating liquid on the stack of. delete

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