KR101698032B1 - Landscape stones connecting unit and slope reinforcement method using the same - Google Patents

Abstract

The present invention relates to a brick-and-mortar connection unit for constructing a retaining wall using a brick wall and a slope-reinforcing construction method using the brick-brick connection unit, and more particularly to a construction method for connecting the brick- A bending pressure plate including a bending portion for distributing the concentrated load generated at the tip of the slope reinforcement to the incision slope surface and a bending portion extending from the both side ends of the pressure applying portion to the front of the incision slope in a ' And two or more connecting bolts for fixing a light pipe to the front end of the slope reinforcement. The connecting bolts are connected to the bending and pressing plate in left and right and upward and downward symmetrical shapes through through holes formed in the bending part, . In accordance with the present invention, the present invention provides a method of fixing a front stone to an anchor end, which provides a unique form of a bending platen, wherein a plurality of connecting bolts can be installed to increase the incision reinforcing efficiency, It is possible to secure the workability and stability by fixing the front stone.

Description

Background Art [0002] Landscape stones connecting units and slope reinforcement methods using the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a brick-and-mortar connection unit for constructing a retaining wall using a brick wall, and a slick reinforcement construction method using the brick-brick connecting unit, and relates to a construction method for stably connecting the brick wall by providing a brick- .

In recent years, as environment-friendly factors in the construction of civil works have arisen, technologies for improving aesthetics and stability have been researched and used to reinforce slope slopes by recording the front surface or arranging scenic stones.

The Applicant has developed a technique for planting vegetation on the backfill soil by installing a panel on the front surface of the slope in front of it and filing it on November 29, 2012 and registering it on Aug. 21, 2013 10-1300770, prior art 1).

However, the conventional art 1 has the following problems.

First, it is impossible to selectively install and remove the earth retaining material (earth plate)

The soil plate is installed in the construction process to prevent the slope slope from collapsing, and is generally removed from the stabilized portion as the construction process proceeds.

In the slope reinforcement construction, the slope plate inserts the slope reinforcement into the slope reinforcement hole, and the filler material is fully cured to support the incision slope surface before the design strength is increased, and the filler material is completely hardened to secure the design strength It is common to remove it after one.

Therefore, when the soil plate is used to reinforce the incision slope in order to sequentially perform excavation and reinforcement from the upper end to the lower end, it is possible to perform the lower end excavation and reinforcement before the upper end filler is hardened, So that air can be shortened.

As shown in FIG. 1, in the prior art 1, a horizontally long horizontally pressurized frame horizontally supporting a cut slope serves as a turntable. However, the horizontal horizontally pressurized frame has a structure in which a slope reinforcement and a body are combined The filler material is hardened and the slope reinforcement material can not be removed even after securing the design strength.

Therefore, there is a problem that the horizontally pressurized frame composed of steel and having a high unit price can not be repeatedly used, the construction cost is significantly increased, and the horizontally pressurized frame of the steel is permanently buried, adversely affecting the environment.

Second, the complexity of construction

1, a plurality of slope reinforcements are coupled to a horizontally long horizontally supporter frame, and a body 220 and a wing 240 are formed on the horizontally supporter frame, So that the construction is inconvenient and difficult.

Third, the fact that the horizontal displacement of the front member can not be supported

In the case of the prior art 1, since the front fixture is a plate member connected in the transverse direction, there is no fear of displacement in the horizontal direction and the supporting force against the horizontal direction is relatively weak. Therefore, There is a problem in that the horizontal displacement and rotation of the forward stone can not be stably supported.

On the other hand, a wire or the like has been widely used in consideration of the ease of construction, however, when a wire or the like is used in a construction method of installing a landscape material using a front stone on the incision surface, There is a problem in that a construction defect occurs.

As a solution to this problem, Korean Patent Registration No. 0447331 (Prior Art 2) discloses a technique of holding a tensile force by a wire while installing a separate member such as a jiba for a compressive force. FIG. 2 is a side view showing a landscape equipment according to the prior art 2. FIG. However, in this case, the use of a plurality of different members has a problem in that the cost of construction increases. In addition, it is necessary to sophisticate the construction in terms of matching the load distribution between the tension member and the compression member. This has caused a problem that a construction defect occurs. In addition, in the case of the compression member (jiova), it is difficult to actually fix the cut surface on the cut surface, and thus it is difficult to apply to the actual site.

On the other hand, in Korean Patent No. 1017979 (Prior Art 3), as shown in Fig. 3, a technique of bearing both tension and compression with an anchor bolt member has been published.

In the prior art 3, a method is adopted in which the tubular member is coupled with the anchor end portion on the slope slope at a ratio of 1: 1, and the stone is unstably fixed to secure the front stone.

In the case where the front stone is integrally formed in such a way as to behave as a single member, brittle fracture is caused. That is, the fracture pattern of the front stone according to the prior art 3 is destroyed by the deformation as shown in Fig. 5 as the fixing member connected in multistage is conducted forward. Specifically, since the deformation of the lower end member connected to the ground occurs and the maximum deformation (δ3) occurs at the uppermost end fixing member, the amount of deformation finally appears as δ1 <δ2 <δ3.

In this case, when the fixing member is used as a fixed member of the same specification for the sake of convenience of construction, when the uppermost fixing member is broken due to the maximum deformation when the front stone is transferred, the load burden on the entire forward stone is reduced As a result of instantaneous transfer, brittle fracture appears. This brittle fracture is a serious safety factor.

Korean Patent No. 1300770 (Prior Art 1) Korean Patent No. 0447331 (Prior art 2) Korea Patent No. 1017979 (Prior Art 3)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a method of fixing a front stone to an anchor end, wherein a plurality of connecting bolts can be installed The present invention also provides a slope connecting unit and a slope reinforcement construction method using the slope connecting unit, wherein the front stone is stably fixed while enhancing the incision reinforcing efficiency and ensuring workability and stability.

In addition, the present invention provides a slope reinforcement construction method in which a soil plate can be installed by providing the bending pressure plate, and a construction period is shortened by stably supporting a slope slope before a filling material of a soil nail or earth anchor method is cured .

In addition, the present invention provides a brick-and-mortar connection unit for preventing brittle fracture by using each of the brick plates individually by utilizing the bending platen, and a slope reinforcement construction method using the same.

According to an aspect of the present invention for achieving the above object, there is provided a slip reinforcing member including an acupressure portion distributing a concentrated load generated at the tip of a slope reinforcement on a slope slope surface, A bending plate including a bending portion bent in a &quot; shape &quot; And two or more connecting bolts for fixing a light pipe to the front end of the slope reinforcement. The connecting bolts are connected to the bending and pressing plate in left and right and upward and downward symmetrical shapes through through holes formed in the bending part, .

The taper washer may further include a taper washer having one end formed as a cut surface having an inclination angle so that the connection bolt inserted into the through hole is supported at an inclined angle.

The connecting bolt is fastened to an anchor whose other end is connected to the back surface of the lightening stone.

Further, the bent portion is bent so as to have a height and an angle at which the current plate for reinforcing the incision sloping surface can be inserted.

According to another aspect of the present invention, there is provided a method of manufacturing a cutting apparatus, comprising the steps of: (A) reinforcing a cut slope through a nail or an earth anchor to a design depth while sequentially cutting slices; (B) sequentially arranging the surface stone from the bottom of the reinforced incision to the design height, and (B) performing the steps of: (B1) forming foundation concrete on a bottom surface of the incision; (B2) installing a light screen on the foundation concrete; (B3) a step of fixing the brimstone to the reinforcing construction end using a brimstone connecting unit, and (B4) filling the backing soil in the space between the bridging unit and the brimstone, A bending pressure plate including an acupressure part for distributing a concentrated load generated at the tip of the slope reinforcement to the incision slope surface and a bending part extending from both side ends of the acupressure part to the front of the incision slope in a ' ; And at least two connection bolts connecting the scenic seat and the slope reinforcement; The curved stone is fixed to the end of the slope reinforcement by a plurality of connecting bolts, one end of which is coupled to the anchor provided on the light pipe, and the other end is coupled to the through hole formed to the right and left and the up-

Here, the brim connection unit may further include a taper washer which is formed by a cut surface having an inclination angle at one end thereof and supports the connecting bolt inserted into the through hole at an inclined angle.

(A2) inserting a filler into the slope reinforcing hole by inserting a slope reinforcement and an injection pipe; (A3) injecting a filler into the slope reinforcement hole; And a step of installing a bending plate at the tip of the slope reinforcement.

The bending portion of the bending plate includes an acupressure portion that distributes the concentrated load generated at the tip of the slope reinforcement to the incision slope surface and a bending portion that is bent and extended in a &quot; a &quot; shape from the both side ends of the acupressure portion .

(A5) repeating the steps (A1) to (A4) to the designed depth, (A6) repeating the steps (A1) ) After the step (A5) is repeatedly performed, the soil plate may be removed.

According to another aspect of the present invention, there is provided a method of manufacturing a slant pipe, comprising the steps of: forming a slanting shape so that both ends of the square steel pipe have a trapezoidal shape; forming a first fastening hole on the slant surface, And a through-hole is formed at both sides of the second fastener; A connecting bolt connecting two or more bridges arranged on the front surface of the cutout to a plurality of bridges fixed to the front end of the slope reinforcement; And a pair of taper washers provided on the front surface and the rear surface of the through-hole, the pair of taper washers being formed by cutting surfaces each having an inclination angle so that the connection bolts inserted are supported at an inclined angle, , And is fixed to the respective pipe support plates in a bilaterally symmetrical shape through the through-hole. The slant surface of each of the pipe support plates includes a light pipe connection unit in which a current plate for reinforcing the incision slope is inserted.

At this time, the pair of tapered washers are formed to have inclined surfaces of the same inclination; And may be manufactured by cutting one side of the washer into a slanted oblique line.

(A) reinforcing the slice slope through a nail, a rock bolt, or an earth anchor to a design depth while sequentially slitting the incision slope; (b) sequentially arranging the surface stone from the bottom of the reinforced incision to the design height, and (b) the step (b) comprises: (b1) forming a foundation concrete on a bottom surface of the incision; (b2) installing a light screen on the foundation concrete; (b3) removing the dust plate on the back surface provided with the visor seats; (b4) connecting and fixing the brimstone to the slope stiffener by using a brimstone connecting unit, and (b5) filling a space between the bridging unit and the brimstone with the bridging soil, A first fastening hole is formed on a tapered surface which is tightly fixed to the incision slope surface and a second fastening hole is formed on a wide surface facing forward of the slope, And a through-hole is formed on both sides of the second fastener; A connecting bolt connecting two or more bridges arranged on the front surface of the cutout to a plurality of bridges fixed to the front end of the slope reinforcement; And a pair of taper washers provided on the front surface and the rear surface of the through-hole, the pair of taper washers being formed by cutting surfaces each having an inclination angle so that the connection bolts inserted are supported at an inclined angle, Wherein the connection bolts are fixed to the end surfaces of the slope reinforcements by a plurality of connection bolts each of which is coupled to an anchor provided at one end of the light pipe and the other end is connected to a through hole formed symmetrically to the pipe support plate, The present invention also relates to a method of constructing a landscape stone retaining wall using a landscape stone connecting unit in which a soil plate for reinforcing the incision slope is inserted into slopes of both side surfaces of the respective pipe support plates.

As described above, the brick-and-mortar connection unit according to the present invention and the slope reinforcement construction method using the same can be expected to have the following effects.

That is, according to the present invention, in a construction method for fixing a front stone to an anchor end, it is possible to install a plurality of connecting bolts, thereby enhancing incision reinforcing efficiency and fixing the front stone stably The workability and stability are secured.

In addition, according to the present invention, it is possible to install a soil plate by providing the bending plate. As a result, it is possible to stably support the incision slope surface even before the soil rails or anchors are hardened, thereby reducing the construction period.

In addition, the present invention has the effect of preventing the brittle fracture by using each braking plate to behave independently of each other.

The present invention has the effect of maximizing workability and economical efficiency by applying a tapered washer and a corrugated sheet which can be manufactured in the field.

1 is a perspective view showing a configuration of a conventional art 1;
BACKGROUND OF THE INVENTION Field of the Invention [0001]
3 is a side view of a retaining wall according to prior art 3;
4 is an exemplary view showing the fracture pattern of the front stone according to the prior art 3. Fig.
5 is a flowchart showing a sequence of a slope connecting unit and a slope reinforcement construction method using the same according to the present invention.
6A to 6H are views showing a sequential construction sequence of a slope connecting unit and a slope reinforcement construction method using the same according to the present invention.
FIG. 7 is a perspective view showing a bending type pressure plate constituting a specific embodiment of the present invention. FIG.
8 is a plan view showing a state in which a bending pressure plate and a dust plate are installed in a specific embodiment of the present invention.
9 is a cross-sectional view showing a coupling bolt coupled to a bending plate in a specific embodiment of the present invention.
10 is a cross-sectional view showing another example of a reinforcing slope constructed using a brick-and-mortar connection unit according to the present invention.
11 is a sectional view showing still another example of a reinforcing slope constructed using a brick-and-mortar connection unit according to the present invention.
FIG. 12 is a perspective view showing a tube guide plate constituting another embodiment of the present invention. FIG.
Fig. 13 is an exemplary view showing an example of production of a square pipe plate constituting another embodiment of the present invention. Fig.
FIG. 14 is a plan view showing a state in which a tube guide plate and a soil plate are installed, from above, according to another embodiment of the present invention. FIG.
15 is a cross-sectional view showing a connection bolt coupled to each pipe line in another embodiment of the present invention.
16 is a cross-sectional view showing an example of a reinforcing slope constructed using a brick-and-mortar connection unit according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description will be given of a tile connecting unit and a slope reinforcement construction method using the same according to the present invention, with reference to the accompanying drawings.

5 is a flowchart illustrating a procedure of a slope connecting unit and a slope reinforcement construction method using the same according to the present invention. 6A to 6H illustrate a construction sequence diagram sequentially illustrating a slope connecting unit and a slope reinforcement construction method using the same according to the present invention.

As shown in FIG. 6A, a slope 10 is formed by excavating a slope, and then a slope reinforcing hole (not shown) is formed on the slope 10 using a perforator, 11 are punched (S100).

Next, as shown in FIG. 6B, the slope reinforcement 12 is inserted into the slope reinforcement hole 11, and then an injection pipe 13 for injecting a filler (not shown) is inserted. Then, the injection pipe 13 is sequentially drawn out to remove the filling material (not shown) (S110).

6C, a bending pressure plate 20 is installed on the entire surface of the slope reinforcing hole 11. When the filler is hardened, the projecting portion of the slope stiffener 12 is engaged with the fastening nut 25 (S120).

The slope reinforcement method as described above is a method widely used in Korea, and the construction method is schematically described. The construction method described above can be applied to various slope reinforcement methods such as soil nail or earth anchor method.

At this time, the bending pressure plate 20 to be applied is configured to satisfy the object of the present invention. 7, the bending pressure plate 20 includes a pressure-sensitive portion 21 fixed to the slope 10 and fixed to both sides of the cut-off portion 10, And a bent portion 23 that is bent frontward when the incision is made in a &quot; shape &quot;. The acupressure part 21 serves to distribute the concentrated load generated at the upper end of the slope reinforcement 12 to the slope of the incision 10 widely. For this, a fastening hole 22 is formed at the center of the pressure-receiving portion 21 so that the front end of the slope reinforcement 12 can be fastened, and the upper end of the slope reinforcement 12 through the fastening hole 22 is fastened with a fastening nut 25) to be fixed to the pressure-sensitive portion (21).

A through hole 24 is formed at both ends of the bent portion 23 so that a plurality of connecting bolts 36, which bear both tensile and compressive loads, can be installed. The coupling structure between the bent portion 23 and the connecting bolt 36 will be described in detail later.

The bending angle of the bent portion may be formed at various angles considering the thickness of the earth plate, the workability for fixing the connecting bolt 36, the burden on tensile compression of the connecting bolt 36, and the like.

6D, a guide plate 31 for supporting the slope of the incision 10 is installed in the bent portion 23 of the bending support plate 20 after the installation step S120 of the bending pressure plate 20 is installed (S130). As shown in Fig. 8, the soil plate 31 is inserted laterally between the bent portion of the bending plate and the bent portion to stably support the incision surface of the incision 10, And serves to support the slope 10 slope during curing.

Thereafter, as shown in FIG. 6E, steps 100 through 130 described above are repeatedly performed in multiple stages up to the designed depth (S140).

At this time, since the soil plate 31 is installed, the construction period due to repeated execution can be reduced. More specifically, steps 100 to 130 are performed, and before the steps 100 to 130 are performed again, a time period is required to be set so that the poured filler is cured first, so that the slope 10 is stably reinforced Since the surface of the incision 10 is further reinforced with respect to the main earth pressure by providing the earth plate 31, the filling time of the filling material such as concrete mortar can be reduced and the time consumed for securing the reinforcement can be reduced.

Further, due to the provision of the earth plate 31, as the slope of the incision 10 is stabilized, the interval and type of the slope reinforcement 12 can be selected relatively freely, and workability, economy, and stability can be ensured.

At this time, the size of the earth plate 31 can be variously formed according to the inclination angle of the slope slope, the kind of soil on the slope slope, and the design load of the slope reinforcement 12.

The soil plates 31 installed thereafter are removed as the filler is completely cured (S150). Of course, the soil plate 31 may not be removed in order to stably reinforce the slope 10, but in this case, the shape of the bending portion 23 must be specified for coupling with the connection bolt 36 to be described later .

Next, as shown in FIG. 6F, the foundation concrete 33 is formed on the bottom surface of the cutout 10 after completion of reinforcement of the slope of the incision 10 by repeating steps 100 through 130 (S160), and a landscape stone 32 is installed on the foundation concrete 33 (S170). A plurality of anchors 34 formed on the back surface of the lightening stone 32 and the connection bolts 35 are fastened by fixing nuts 35 to fix the connecting bolts 35 to the rear surface of the lightening stone 32 and the slopes of the slope reinforcement 12 The ends are fixed.

The side of the observer's seat 32 and the side of the oblique stiffener 12 are connected by a brimstone connecting unit 40. Hereinafter, the brim connecting unit 40 will be described in detail.

As shown in FIG. 9, the brim unit connecting unit 40 includes a bending support plate 20, a fastening nut 25, a tapered washer 26, a coupling nut 35, a connection bolt 36, 37). A through hole 24 is formed at both ends of the bent portion 23 of the bending plate 20 and the connecting nut 37 is inserted into the connecting bolt 36 to fix the connecting bolt 36, And is fastened to the hole 24 (S180). At this time, the through holes 24 are formed at appropriate positions and in a number corresponding to the number of the connection bolts 36 being engaged.

The connecting bolt 36 is radially coupled to the bending portion 23 of the bending plate 20 to stably support the observer 32. Accordingly, the plurality of connection bolts 36 are coupled such that the coupling surfaces of the bending portion 23 and the connection bolts 36 have inclined angles. Therefore, it is preferable that a tapered washer 26 is provided on the coupling surface of the bending part 23 for stable coupling. More specifically, the taper washer 26 and the connecting nut 37 are fastened to both sides of the bending portion 23, so that the tension and compressive load applied to the connecting bolt 36 are stably burdened.

At this time, the taper washer includes a pair of taper washers on the front surface and the rear surface of the bent portion, and the pair of taper washers have the same inclination angle.

Such a pair of tapered washers can be easily manufactured by cutting the side surface of one washer having a relatively large height into oblique sloping lines, which can also be easily manufactured and used in the field.

Thereafter, the back soil 38 made of soil or small stones is filled in the space between the incision 10 and the sight stone 32 (S190).

Next, referring to FIG. 6H, the upper surface stone 32 is installed on the inner side of the lower surface stone 32 (S170), and steps 170 to 190 are completed to the design height.

If the soil plate 31 is not removed in the soil plate removing step S150, the shape of the bent portion 23 of the bending plate 20 may be differently formed. That is, even when the dust plate 31 is installed on the back surface of the bent portion 23, the bent portion 23 is formed on the back surface of the through hole 24 so as to form a space in which the bolt, ) Can be formed differently.

Next, Fig. 10 is a sectional view showing another example of the reinforcing slope constructed using the brick-and-mortar connection unit according to the present invention. Another embodiment of the present invention may be such that the upper surface stone 32 is constructed so that there is no overlapping part of the inner surface of the lower surface stone 32 and only the surface stone 32 is seen on the entire surface have.

11 is a sectional view showing still another example of the reinforcing slope constructed using the brick-and-mortar connection unit according to the present invention. In another embodiment of the present invention, as shown in FIG. 11, the upper surface stone 32 may be laminated on the upper surface of the lower surface stone 32 so that the surface of the upper surface stone 32 is formed as a vertical wall.

On the contrary, the present invention can be modified and embodied by various methods.

For example, in the embodiment of the present invention, the bent portions 23 are formed on both sides of the bending pressure plate 20. However, in some cases, the bent portions are formed on the upper and lower ends of the bending pressure plate, It is also possible that the soil plate 31 is inserted between the bent portions 23 and installed.

As another example, in the specific embodiment of the present invention, it is described that the soil plate 31 is removed after the slope surface reinforcement construction, but may not be removed occasionally.

Meanwhile, the brick-and-mortar connection unit according to the present invention may also be constructed by various embodiments. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration of another embodiment of a bridging seat connecting unit according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 12 is a perspective view showing each of the piping plates constituting another embodiment of the present invention, FIG. 13 is an illustration showing an example of manufacturing each piping plate constituting another embodiment of the present invention, and FIG. FIG. 15 is a cross-sectional view illustrating a state in which a connecting bolt is coupled to each pipe line in another embodiment of the present invention. FIG.

First, in another embodiment of the brick-and-mortar connection unit according to the present invention, a bridging platen 50 is provided instead of the bending platen.

That is, each pipe support plate 50 is provided on the entire surface of the slope reinforcing hole 11, and the projecting portion of the slope reinforcement member 12 and the fastening nut 25 are engaged with each other.

As shown in FIG. 12, each pipe support plate 50 is formed in an inclined shape so that both ends of the rectangular steel pipe have a trapezoidal shape.

A first fastening hole 52 is formed at the center of a tapered surface closely fitted to the incision slope surface, a second fastening hole 53 is formed at the center of a wide surface toward the front of the incision slope surface, And through holes 54 are formed on both sides of the second fastening hole 53, respectively.

The first fastener 52 and the second fastener 53 are coupled through protrusions of the slope reinforcement 12 and the through holes 54 are connected to the connecting bolts 36.

As shown in FIG. 13, the square pipe plate 50 can be easily manufactured by cutting the slabs of comparatively low cost and forming a sloping shape, and then drilling.

Such a pipe line pressure plate 50 can be manufactured at a low production cost as compared with the bending and pressure plate 20 manufactured by a separate step of bending a steel plate and there is almost no part to be discarded after production, .

In addition, since the above-mentioned pipe line pressure plate 50 can be manufactured and used in the field due to a simple manufacturing method, the ratio of the light surface and the shallow surface can be judged on the spot according to the site conditions, It has the advantage of being hardly affected by change.

14, the end of the slope reinforcement 12 passes through the first fastening hole 52 and the second fastening hole 53 of the above-mentioned tubular pressure plate 50, and is fastened by the fastening nut 25 do.

A soil plate (31) is fitted on both inclined surfaces of the pipe line pressure plate (50).

On the other hand, as shown in FIG. 15, connecting bolts 36, which bear a tensile force and a compressive load, are fastened to both side through holes 54 on the light surface of each pipe pressure plate 50, respectively.

At this time, the connecting bolt 36 is also fastened to the through-hole 54 so as to have an inclination angle with the front surface of each pipe pressure plate 50.

For this, a tapered washer 26 is preferably provided on the fastening portion of the through hole 54. More specifically, the taper washer 26 and the connecting nut 37 are fastened to both surfaces of the through-hole 54, so that the tension and compressive load applied to the connecting bolt 36 are stably burdened.

The tapered washers 26 are provided with a pair of tapered washers on the front and back surfaces of the through-holes 54, and the pair of tapered washers 26 have the same inclination angle.

Such a pair of tapered washers can be easily manufactured by cutting the side surface of one washer having a relatively large height into oblique sloping lines, which can also be easily manufactured and used in the field.

As described above, a construction view of the present invention in which another example of the brimstone connecting unit to which each pipe pressure plate is applied is shown in Fig.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

The present invention relates to a brick-and-mortar connection unit for constructing a retaining wall using a brick wall and a slope-reinforcing construction method using the brick-brick connection unit, and more particularly to a construction method for connecting the brick- In accordance with the present invention, the present invention provides a method of fixing a front stone to an anchor end, which provides a unique form of a bending platen, wherein a plurality of connecting bolts can be installed to increase the incision reinforcing efficiency, It is possible to secure the workability and stability by fixing the front stone.

10: cutout 11: slope reinforcement ball
12: slope stiffener 13: injection pipe
20: bending plate 21:
22: fastening hole 23:
24: through hole 25: fastening nut
26: taper washer 31:
32: Scenic stone 33: Basic concrete
34: Anchor 35: Coupling nut
36: connecting bolt 37: connecting nut
38: rear surface soil 40:
50: each tube pressure plate 52: first fastener
53: body 2 fastener 54: through hole

Claims (9)

A bending pressure plate including a bending portion that is inserted into the slit and is tightly coupled to the slit, and a bending portion that is bent and extended from the both ends of the bending portion toward the front of the slit;
A connecting bolt for connecting a lightweight stool disposed on the front surface of the cutout to two or more bending plates fixed to the tip of the slant reinforcement; And
And a pair of taper washers provided on the front surface and the rear surface of each of the through holes formed in the bent portion and each having a tapered angle formed at one end thereof to support the inserted connection bolt at an inclined angle :
The connecting bolts,
And is fixed to the bending plate in left and right and up and down symmetrical shapes through through holes formed in the bending portion,
The bending portion
Wherein the light guide plate is folded to have a height and an angle at which the light guide plate for reinforcing the incision slope can be inserted.
The first and second fasteners are formed in a tapered shape so that both ends of the rectangular steel pipe have a trapezoidal shape. The first fastener is inserted into the tip of the slope reinforcement and tightly fixed to the incision slope surface. And a through-hole is formed at both sides of the second fastener;
A connecting bolt connecting two or more bridges arranged on the front surface of the cutout to a plurality of bridges fixed to the front end of the slope reinforcement; And
And a pair of taper washers provided on the front surface and the rear surface of the through-hole, the pair of taper washers being formed by cutting surfaces each having an inclination angle so that the connection bolts inserted are supported at an inclined angle,
The connecting bolts,
And is fixed to the square pipe plate symmetrically through the through-hole,
Wherein a slope plate for reinforcing the incision slope is inserted into slopes of both side surfaces of each pipe support plate.
3. The method according to claim 1 or 2,
The connecting bolt
And the other end is fastened to an anchor connected to the back surface of the lightening stone.
3. The method according to claim 1 or 2,
Wherein the pair of tapered washers
Is formed to have an inclined surface of the same inclination;
And the side surface of one washer is cut into oblique oblique lines.
(A) reinforcing the slice slope through a nail, a rock bolt, or an earth anchor to a designed depth while sequentially slitting the incision slope;
(B) sequentially arranging the brimstone from the bottom of the reinforced incision to the design height,
The step (B)
(B1) forming a foundation concrete on a bottom surface of the incision;
(B2) installing a light screen on the foundation concrete;
(B3) removing the dust plate on the back surface provided with the visor seats;
(B4) connecting and fixing the observer's stones to the slope stiffener using the observer-
(B5) filling the space between the incision and the spectacle seat with the backsheet,
The brim connection unit includes:
A bending pressure plate including a bending portion that is inserted into the slit and is tightly coupled to the slit, and a bending portion that is bent and extended from the both ends of the bending portion toward the front of the slit;
At least two connecting bolts connecting the scenic seat and the slope reinforcement; And
And a taper washer which is formed as a cut surface having an inclination angle at one end thereof and which supports the connecting bolt inserted into the through hole formed in the bent portion at an inclined angle;
The above-
And the other end is fixed to the end of the slope reinforcement by a plurality of connecting bolts coupled to the through holes formed in left and right and up and down symmetrically to the bending portion,
The connecting bolts,
And is fixed to the bending plate in left and right and up and down symmetrical shapes through through holes formed in the bending portion,
The bending portion
Wherein a slope for reinforcing the incision slope is bent to have a height and an angle at which the slope plate can be inserted.
(a) reinforcing the slice slope through a nail, a rock bolt, or an earth anchor to a design depth while sequentially slitting the incision slope;
(b) sequentially arranging the screen stone from the bottom of the reinforced incision to the design height,
The step (b)
(b1) forming a foundation concrete on a bottom surface of the incision;
(b2) installing a light screen on the foundation concrete;
(b3) removing the dust plate on the back surface provided with the visor seats;
(b4) connecting and fixing the observer's stones to the slope stiffener by using the observer-
(b5) filling the space between the incision and the spectacle seat with a backsheet;
The brim connection unit includes:
A first fastening hole is formed on a narrow surface of the rectangular steel pipe so as to have a trapezoidal shape so as to have a trapezoidal shape and tightly fixed to the incision slope surface. And a through-hole is formed on both sides of the second fastener;
A connecting bolt connecting two or more bridges arranged on the front surface of the cutout to a plurality of bridges fixed to the front end of the slope reinforcement; And
And a pair of taper washers provided on the front surface and the rear surface of the through-hole, the pair of taper washers being formed by cutting surfaces each having an inclination angle so that the connection bolts inserted are supported at an inclined angle,
The above-
And the other end is fixed to the end of the slope reinforcement by a plurality of connecting bolts coupled to the through holes formed symmetrically to the respective pipe supporting plates,
The connecting bolts,
And is fixed to the square pipe plate symmetrically through the through-hole,
Wherein a slope plate for reinforcing the incision slope is inserted into slopes of both side surfaces of each pipe support plate.
The method according to claim 5 or 6,
Wherein the pair of tapered washers
Is formed to have an inclined surface of the same inclination;
And the side surface of one washer is cut into a slanting line.
8. The method of claim 7,
The step of reinforcing the incision of step (A) or step (a)
(I) a step of forming the incision and drilling the slope reinforcement,
(Ii) inserting a filler into the slope reinforcing hole by inserting a slope reinforcement and an injection pipe,
(Iii) installing a bending support plate at the tip of the slope reinforcement member.
9. The method of claim 8,
(Iv) installing a soil plate between the bent portions of the bending and pressing plate simultaneously with the installation of the bending plates,
(V) repeating the steps (i) to (iv) until the designed depth is reached.

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