KR102364316B1 - Apparatus of new castle rock block, and the building method using the new castle rock block - Google Patents

Abstract

The present invention relates to a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block.
In other words, by using the groove and protrusion structure of the Newcastle Lock block to improve the bonding force of the stacked bonding between the Newcastle Lock blocks, and by applying the hole structure that enables the connection with the reinforcing bar firmly, the pulling force to the rear is improved. It relates to a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block, which facilitates the construction of the Newcastle Rock block in an area where construction is difficult, such as an incision.

Description

Structure of Newcastle Rock Block and Construction Method Using the Newcastle Rock Block

The present invention relates to a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block.

In other words, by using the groove and protrusion structure of the Newcastle Lock block to improve the bonding force of the stacked bonding between the Newcastle Lock blocks, and by applying the hole structure that enables the connection with the reinforcing bar, the force to pull backward is improved. It relates to a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block, which facilitates the construction of Newcastle Rock blocks in areas where construction is difficult, such as incisions, and maintains the robustness of construction by improving bonding strength even during general grid construction.

In general, a retaining wall that supports the earth pressure on one side or prevents the collapse of a slope is installed in a filled site or a cut-off site to withstand the earth pressure acting on the retaining wall.

Retaining wall is a wall that resists earth pressure and prevents the soil from collapsing.

In such a conventional retaining wall, reinforcing bars forming the skeleton of the retaining wall are arranged in a certain shape in a fill site or a cut-off site, the rebar is wrapped with a form, and then concrete is poured into the form and cured to form a wall, and then, soil, It was built by filling reinforcing soil containing crushed stone and rubble.

However, such a reinforced concrete retaining wall has the disadvantage that the construction process is very complicated and the construction period is consumed, which requires a huge construction cost.

As a known technique for solving the problems of such a conventional retaining wall, recently, retaining wall construction using a retaining wall block has been disclosed.

In this method of constructing a retaining wall using such a retaining wall block, a plurality of retaining wall blocks are stacked along the fill site or cut-off site, and then the rear surface is filled with reinforcing soil such as earth or rubble.

In addition, among the methods of constructing a retaining wall, there is a method of constructing a retaining wall by connecting a plurality of retaining wall panels along the width and height directions. After combining with reinforcing bar members such as reinforcing bars that are embedded in the ground to form a wall, the space between the retaining wall panel and the slope is filled with reinforcing soil such as soil or rubble to install the retaining wall to prevent the soil from being pushed forward.

With respect to the retaining wall construction technology, Patent Publication No. 10-2016-0006924 discloses a concrete panel for a retaining wall and a retaining wall construction method using the same.

Concrete panel for retaining wall according to the above technology, a plate-shaped panel body portion; a central protrusion formed protruding from the front center of the panel body and provided with a hollow perforated obliquely in a form to expand toward the rear; a pedestal having a trapezoidal cross-section from the central protrusion toward the lower mori-ri side, the same protrusion thickness and a smaller protrusion width; a pair of reinforcing parts formed symmetrically with each other so that the central protrusion has a trapezoidal cross-section toward both upper corners and the protrusion thickness and protrusion width gradually decrease; It is provided inside the plate-shaped panel body part, the central protrusion part, the pedestal part and the pair of reinforcing parts to constitute the skeleton of the plate-shaped panel body part, the central protrusion part, the pedestal part and the pair of reinforcing parts. reinforcing bars; a drain hole formed in the panel body so as to be symmetrically positioned on the outside of the pair of reinforcing parts; and a ring portion provided to be located in the space of the groove portion formed to be symmetrical to each other on both sides of the upper surface of the panel body portion; the combined weight of the reinforcing portion provided in the pair of reinforcing portions and the pair of reinforcing portions It is configured to be smaller than the combined weight of the seat portion and the reinforcing bars provided inside the seat portion so that the center of gravity is located below the central protrusion.

In addition, Korean Patent Publication No. 10-1871186 describes a retaining wall construction method.

The above technology relates to a method for manufacturing a retaining wall panel, a retaining wall panel and a method for constructing the retaining wall, and more particularly, a manufacturing method for forming a grid-type drainage groove on the rear surface of the retaining wall panel to apply a waterproofing solution and attaching a retaining net and the retaining wall It relates to a panel and a method for constructing a retaining wall using the retaining wall panel.

In other words, the technique includes the steps of installing a form for space formation on the side where the stone plate is to be attached inside the mold and installing a wedge for attaching the stone plate to the form, and pouring concrete into the mold and filling it , Forming and curing a grid-type drainage groove by pressing a grid-type mold on the upper surface of the concrete, applying a waterproofing liquid to the rear surface on which the drainage groove is formed, and the drainage grooves can be maintained on the rear surface to which the waterproofing liquid is applied It is configured to include a step of attaching the retaining net by a bonding material so as to separate and dismantle the formwork and the mold frame.

Laid-open Patent Publication No. 10-2016-0006924 (2016.01.20.) Registered Patent Publication No. 10-1871186 (2018.06.27. Announcement) Registered Utility Model Publication No. 20-0455592 (2011.09.15. Announcement) Registered Patent Publication No. 10-2137563 (2020.07.24. Announcement)

An object of the present invention is to improve the bonding force of lamination bonding between Newcastle lock blocks by using the grooves and protruding structures of the Newcastle lock blocks, and by applying a hole structure that enables the connection with the reinforcing bars to be solid, the force pulling back An object of the present invention is to provide a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block, which can be improved to facilitate the construction of the Newcastle Rock block in areas where construction is difficult, such as incisions.

The structure of the Newcastle lock block and the construction method using the Newcastle lock block according to the present invention were devised to achieve the above-described object, and as the side wall 11 is inclined from the front to the rear, the front width is wide and the rear Constructed to be narrow,

a front protrusion 121 configured to protrude from one side of the upper surface 12 to one front side; a key 122 configured to protrude to a predetermined size on the other side of the upper surface 12; a front through-hole 123 in the front direction configured to penetrate downward from the upper surface 12; It is formed in the rear of the front through-hole 123, and configured to include a rear through-hole 124 configured to penetrate downward from the upper surface 12;

The lower surface 13 has a front groove portion 131 configured to form a step upward at a position corresponding to the front protrusion portion 121 of the upper surface 12; It is characterized in that it comprises;

At this time, in arranging a plurality of Newcastle Rock blocks,

The key 12 provided on the upper surface 12 of one Newcastle lock block 10 is inserted into the key insertion part 132 provided on the lower surface 13 of the other Newcastle lock block 10,

The front protrusion 121 provided on the upper surface 12 of one Newcastle lock block 10 comes into contact with the front groove portion 131 provided on the lower surface 13 of the other Newcastle lock block 12 and is coupled thereto. It is characterized in that it is constructed in a laminated method.

In addition, an extension groove 124a extending forward/rearwardly having a predetermined size is formed at the end of the rear through-hole 124 in the upper surface 12 direction,

The reinforcing bar 20 is coupled to the Newcastle lock block 10 through the extension groove 124a extending in the rear direction of the rear through hole 124,

A cover 30 is coupled to the upper side of the rear through-hole 124 to which the reinforcing bar 20 is coupled to close the rear through-hole 124 .

According to the structure of the Newcastle Rock block according to the present invention and the construction method using the Newcastle Rock block, the bonding strength of the stacked bonding between the Newcastle Rock blocks is improved by using the groove and the protruding structure of the Newcastle Rock block, and the bonding with the reinforcing bar is strengthened. By applying the structure of the hole that makes it possible, it is possible to provide the structure of the Newcastle Lock block, which improves the pulling force to the rear to facilitate the construction of the Newcastle Rock block in areas where construction is difficult, such as incisions.

1 shows the structure of a Newcastle lock block according to the present invention.
2 is a view showing the structure of the Newcastle lock block according to FIG. 1 in another direction.
3 shows an example of constructing the Newcastle Rock block according to FIG.
Figure 4 schematically shows the rear through-hole of the Newcastle lock block according to the present invention.

The terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor may appropriately define the concept of the term in order to best describe his invention. Based on the principle, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the matters shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be water and variations.

Hereinafter, prior to the description with reference to the drawings, it is not shown or specifically described for the known components that are not necessary to reveal the gist of the present invention, that is, a known configuration that can be added obviously by those skilled in the art with ordinary knowledge. reveal the sound

The present invention relates to a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block.

In other words, by using the groove and protrusion structure of the Newcastle Lock block to improve the bonding force of the stacked bonding between the Newcastle Lock blocks, and by applying the hole structure that enables the connection with the reinforcing bar, the force to pull backward is improved. It relates to a structure of a Newcastle Rock block and a construction method using the Newcastle Rock block, which facilitates the construction of the Newcastle Rock block in an area where construction is difficult, such as an incision.

1 shows the structure of a Newcastle lock block according to the present invention, and FIG. 2 shows the structure of the Newcastle lock block according to FIG. 1 from another direction.

According to the structure of the Newcastle lock block according to the accompanying drawings, the Newcastle lock block 10 according to the present invention is configured such that the front width is wide and the rear width is narrow as the side wall 11 is inclined from the front to the rear .

In addition, a front protrusion 121 configured to protrude on one side of the front side of the upper surface 12 and; a key 122 configured to protrude to a predetermined size on the other side of the upper surface 12; a front through-hole 123 in the front direction configured to penetrate downward from the upper surface 12; It is formed in the rear of the front through-hole 123, the rear through-hole 124 configured to penetrate downward from the upper surface 12; is configured to include.

In addition, the lower surface 13 of the Newcastle lock block 10 has a front groove portion 131 configured to form a step upward at a position corresponding to the front protrusion portion 121 of the upper surface 12; and a key insertion part 132 concavely formed at a position corresponding to the key 122 of the upper surface 12 .

A plurality of Newcastle lock blocks 10 configured as described above may be stacked and combined in an up/down direction while being arranged in a lateral direction, and in this case, the form of stacking may have a zigzag direction.

The stacking of these Newcastle lock blocks 10 may be referred to FIG. 3 of the accompanying drawings.

3 shows an example of constructing the Newcastle Rock block according to FIG.

That is, the key 12 provided on the upper surface 12 of one Newcastle lock block 10 is inserted into the key insertion part 132 provided on the lower surface 13 of the other Newcastle lock block 10, and ,

The front protrusion 121 provided on the upper surface 12 of one Newcastle lock block 10 comes into contact with the front groove portion 131 provided on the lower surface 13 of the other Newcastle lock block 12 and is coupled thereto. It is a stacked structure.

On the other hand, the upper surface 12 direction end of the above-described rear through hole 124 may be configured as shown in FIG.

Figure 4 schematically shows the rear through-hole of the Newcastle lock block according to the present invention.

An extension groove 124a extending in the front/rear direction with a predetermined size is formed at the end of the rear through-hole 124 in the upper surface 12 direction according to FIG. 4 of the accompanying drawings.

The extended groove 124a is formed only by a predetermined depth from the upper surface 12 of the Newcastle lock block 10 .

Accordingly, as shown in FIG. 4 of the accompanying drawings, the reinforcing bar 20 is coupled to the Newcastle lock block 10 through the extended groove 124a extending in the rear direction of the rear through hole 124, for this purpose, The extended groove 124a extending in the rear direction of the rear through hole 124 is configured to communicate with the rear end of the Newcastle lock block 10, so that the reinforcing bar 20 can be stably coupled.

In this way, the cover 30 is coupled to the upper side of the rear through-hole 124 to which the reinforcing bar 20 is coupled to close the rear through-hole 124 .

At this time, the cover 30 may be coupled by welding to the reinforcing bar 20 .

On the other hand, the cover 30 may be improved as shown in [Table 1] for more robust coupling of the reinforcing bar 20.

The cover 30 according to [Table 1] includes a partition wall 31 composed of four walls protruding downward, and the inside of the partition wall 31 is configured to be in a hollow state.

In addition, a hole 32 is formed at one side of the partition wall 31 , and the reinforcing bar 20 is inserted into the hole 32 .

In this case, the hollow inside the partition wall 31 may include a pressing body 40 that is composed of two and positioned in a symmetrical direction.

The pressing body 40 includes a plate portion 41 having a size in contact with the lowermost surface of the partition wall 31; a rail 44 formed on the upper surface of the plate part 41; a protrusion 42 having a size smaller than that of the plate part 41 above the plate part 41, being inserted into the hollow inside of the partition wall 31, and moving along the rail 44; In the region where the protrusions 42 of the plate part 41 do not protrude, two are configured as a pair, and the flow plate 43 flows along the rail 44; is configured to include.

The two flow plates 43 are spaced apart from each other and provided with a plurality of springs in the spaced apart space to connect the two flow plates 43 .

At this time, the flow plate 43 and the protrusion 42 may flow along the rail 44 as described above, and for this, guide grooves 431 corresponding to the number and position of the rails 44 are provided. to be formed

At this time, even when the spring is expanded to the maximum, the flow plate 43 flowing along the rail 44 has a pressure and size that does not completely deviate from the rail 44 .

At this time, although not shown in [Table 1], the rail 44 has a '凸' structure in the reverse direction, so that the above-described protrusion 42 and flow plate 43 do not separate from the plate part 41 . .

Accordingly, the protrusion of the pressing body 40, even without welding the reinforcing bar 20 and the cover 30, by the two pressing body 40, each of the protrusions 42 pushing the reinforcing bar 20 in both directions and pressing it. The sieve 42 fixes the reinforcing bar 20 , and the flow plate 43 on the outside fixes the cover 30 , so that the reinforcing bar 20 can be stably fixed from the cover 30 .

What has been described above using the drawings is to describe only the main points of the present invention, and it is obvious that the present invention is not limited to the configuration of the drawings as much as various designs are possible within the technical scope.

10 : Newcastle Rock Block
11: side wall
12: top
121: anterior protrusion
122: key
123: front through hole
124: rear through hole
124a: extended groove
13 : if
131: front groove
132: key insertion part
20: rebar
30: cover

Claims (3)

The side wall 11 is configured so that the width of the front is wide and the width of the rear is narrow as the side wall 11 is inclined from the front to the rear,
a front protrusion 121 configured to protrude from one side of the upper surface 12 to one front side; a key 122 configured to protrude to a predetermined size on the other side of the upper surface 12; a front through-hole 123 in the front direction configured to penetrate downward from the upper surface 12; It is formed in the rear of the front through-hole 123, and configured to include a rear through-hole 124 configured to penetrate downward from the upper surface 12;
The lower surface 13 has a front groove portion 131 configured to form a step upward at a position corresponding to the front protrusion portion 121 of the upper surface 12; In the structure of the Newcastle lock block comprising; a key insertion part 132 formed concavely at a position corresponding to the key 122 of the upper surface 12
In the arrangement of a plurality of Newcastle Rock blocks,
The key 12 provided on the upper surface 12 of one Newcastle lock block 10 is inserted into the key insertion part 132 provided on the lower surface 13 of the other Newcastle lock block 10,
The front protrusion 121 provided on the upper surface 12 of one Newcastle lock block 10 comes into contact with the front groove portion 131 provided on the lower surface 13 of the other Newcastle lock block 12 and is coupled thereto. Constructed in a laminated method,
An extension groove 124a extending forward and rearward with a predetermined size is formed at the end of the rear through-hole 124 in the upper surface 12 direction,
The reinforcing bar 20 is coupled to the Newcastle lock block 10 through the extended groove 124a extending in the rear direction of the rear through hole 124,
The cover 30 is coupled to the upper side of the rear through-hole 124 to which the reinforcing bar 20 is coupled to close the rear through-hole 124,
Further comprising a cover 30 for a firm coupling of the reinforcing bar 20,
The cover 30,
It includes a partition wall 31 composed of four walls protruding downward, and the inside of the partition wall 31 is configured to be in a hollow state,
A hole 32 is formed on one side of the partition wall 31, and a reinforcing bar 20 is inserted into the hole 32,
In the hollow inside of the partition wall 31, it includes a pressing body 40 which is composed of two and positioned in a symmetrical direction,
The pressing body 40,
a plate portion 41 having a size in contact with the lowermost surface of the partition wall 31; a rail 44 formed on the upper surface of the plate part 41; a protrusion 42 having a size smaller than that of the plate part 41 toward the upper side of the plate part 41, being inserted into the hollow inside of the partition wall 31, and moving along the rail 44; In the region where the protrusions 42 of the plate part 41 do not protrude, there are two of them in a pair, and a flow plate 43 flowing along the rail 44 includes;
The two flow plates 43 are spaced apart from each other by a predetermined interval and provide a plurality of springs in the spaced space to connect the two flow plates 43,
The flow plate 43 and the protrusion 42 can flow along the rail 44 as described above, and guide grooves 431 corresponding to the number and position of the rails 44 are formed. The structure of the Newcastle Rock block. delete delete

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