KR20020094271A - A coupling device of assembly block for Wall systems - Google Patents

Abstract

PURPOSE: A prefabricated block connector for a revetment is provided to improve work efficiency by assembling/installing simply and to mass-produce with simple structure. CONSTITUTION: The prefabricated block connector(20) for a revetment connects upper blocks(10a) and lower blocks(10b) arranged to cross each other and comprises a main connector(21) whose upper and lower parts are interposed in a fitting groove(115) of the upper block(10a) and a fastening groove(116) of the lower block(10b) respectively; and many auxiliary connectors(22) coupled with the main connector(21) and interposed in fitting grooves(115) of the upper blocks(10a).

Description

A coupling device of assembly block for Wall systems

The present invention relates to a prefabricated block connecting device for reinforcement earth retaining wall installation, and the block and the block having a center of gravity of an equilateral triangle shape is assembled / combined by a main connecting rod and an auxiliary connecting rod to adjust the angle of the retaining wall, and ease of operation and robustness. The present invention relates to a prefabricated block connecting device for installing a retaining wall retaining wall, which can improve the life of the retaining wall.

In general, the retaining wall refers to a wall structure that prevents soil from collapsing when the stable slope of the surface ground is steeper than that. Necessary for stacking concrete, cutting down mountains, filling shore, etc. Gravity-type concrete retaining wall used for low heights and special reinforced concrete retaining wall used when it is necessary to favor the use of paper by vertically walling the wall. In addition, reverse T type There are also L-shaped retaining walls, subwalls (L-shaped), and simple retaining walls using steel plates or wooden fences.

A conventional block type retaining wall has a body portion including a front face, an upper face, a bottom face and a side wall extending rearward from opposite ends of the front face, the body being open to one of the top face and the bottom face, and the side wall is open. And block interconnecting means having first and second pockets and a first and second pinhole for receiving a spacer from the first and second pockets, the first pinhole being disposed adjacent the first pocket and laterally therefrom. And the second pinholes are arranged adjacent to the second pockets and deviated laterally from here.

However, such a conventional block retaining wall is connected to and supported by the upper block and the lower block only by a circular pin having a diameter small enough to be inserted into the first and second pin holes. When the earth pressure is smaller than the generated earth pressure, and the earth pressure higher than a certain pressure is applied to the block, the applied earth pressure may damage the circular pin, which may cause the assembly of the block to break and the retaining wall may collapse. It was.

In addition, in the case of the high retaining wall, in order to withstand the earth pressure acting on the rear part, the retaining wall should have a predetermined angle of inclination angle capable of withstanding the earth pressure, but the conventional block described above is a circular pin inserted into the first and second pin holes. And, the inclination angle is adjusted only within a certain angle (the front deviation of the upper block and the lower block is about 0.5 inches) by the length of the first and second pockets into which the circular pin ends are inserted, so that the height of the retaining wall is high. In addition, there is a limitation in the installation place, such as difficult to apply, and also because the position of the pin is fixed in the curved portion, it is impossible to install in a section with a small curved radius.

Of course, in order to overcome the above problems, it is provided with a block body that is a hexahedron including two sides connected from the front, the top surface, the bottom surface, the rear and the front to the rear, the block body to a predetermined depth on the bottom surface An accommodating groove formed to extend in parallel with the front surface to accommodate the head portion of the angle pin, a pinhole penetrating vertically from the front surface to the accommodating groove on the bottom surface, and fitted with the insertion portion of the angle pin, the pin hole and the accommodating groove Some vertical holes penetrated vertically between the rear and the rear are connected and supported by an angle pin having a square head portion and a circular insertion portion to adjust the inclination angle of the retaining wall and to connect the upper block and the lower block. The block and the connection / support means of the block also have the concept of a pin, and a circular insertion portion (pre-defined block) coupled to the head of the angle pin. Block is supported / connected by a circular pin), and the problem of the conventional block described above is exposed as it is, and the inclination angle of the retaining wall is adjusted by the square head of the angle pin inserted into the receiving groove. However, since the angle is adjusted by the eccentric coupling of the insertion portion and the head portion, the inclination of the retaining wall can only be adjusted in four stages, and thus the inclination angle of the retaining wall cannot be adjusted in accordance with the retaining wall rear earth pressure according to the retaining wall height. In other words, the inclination angle of the retaining wall is too much or too little compared to the earth pressure, which may cause problems in aesthetics and safety. This block also has a small curve because the pin position is fixed. The disadvantage is that the installation of wealth is impossible.

The present invention has been made in consideration of the above problems, and its object is to install / support a solid retaining wall by connecting / supporting a block having a center of gravity of an equilateral triangle shape by a bar, thereby improving the stability of the retaining wall, and earth pressure According to the various angles of inclination, the installation of any curved part is possible by adjusting the position of the block connecting part according to the radius of curvature. It is easy to assemble and install, improving the construction speed and work efficiency, and mass production through simple structure. It is to provide a prefabricated block connecting device for installing the retaining wall retaining wall capable of.

The present invention provides a block connection device for retaining wall installation; The block connecting device is an equilateral trapezoidal block which is lined up / installed so that side surfaces are in contact, and up / down contacts / installed so as to cross each other, and are inserted into the block to connect / support another block and another block. It is configured to provide a prefabricated block connecting device for reinforcing soil retaining wall installation is configured as a connection to change the inclination angle of the upper and lower blocks in accordance with the change of the connection.

1 is an exemplary view showing a configuration according to the present invention

2 is an exemplary view showing a configuration of a block according to the present invention.

3 is a block diagram of the upper and lower surfaces of the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is an exemplary view showing the configuration of the main connecting rod according to the present invention;

6 is an exemplary view showing a configuration of an auxiliary connecting rod according to the present invention

Figure 7 is an exemplary view showing a combined state of the main / auxiliary connecting rod of the present invention

8 is an exemplary view showing a vertical retaining wall assembly cross-sectional state using the present invention.

9 is an exemplary view showing a state of the vertical retaining wall assembled in accordance with the present invention.

Figure 10 is an exemplary view showing a state of inclined retaining wall assembly cross-section using the present invention.

11 is an exemplary view showing a state of the inclined retaining wall assembled in accordance with the present invention.

* Explanation of symbols for the main parts of the drawings

(10): block (10a): upper block

(10b): lower block (11): head

(12): tail portion 13: connection portion

(20): connecting rod (21): main connecting rod

(22): auxiliary connecting rod (100,100 '): first row block

(111): Head front 112: Head rear

(113): head side 114: head side

(115): head insertion groove (116): head fastening groove

(115h): Head insertion groove width (116h): Head fastening groove width

(121): Tail front 122: Tail rear

123: tail side 124: tail side

131: through hole 200, 200 ': second row block

(211): main connector connecting groove (221): auxiliary connector connecting portion

(222): auxiliary connecting rod coupling groove (300,300 ′): third row block

(500,600): Crushed Stone (700): Backfill Soil

(800): Grid (900): Cover Block

Figure 1 shows an exemplary view showing a configuration according to the present invention, the present invention is arranged in a left / right direction so that one side or one end is in contact, and the block 10 arranged to cross each other in the upper and lower ends and The upper block 10a and the lower block 10b arranged in a staggered configuration are connected to each other by a connection table 20, and the upper block 10a and the lower block 10b by the connection table 20. The front 111 of the is to be connected / supported to have a depth, that is, when viewed from the side, to form a step shape.

Figure 2 is an exemplary view showing the configuration of the block according to the invention, Figure 3 is a block diagram illustrating the upper and lower surfaces of the present invention, Figure 4 is an AA cross-sectional view of Figure 2, the present invention is a plane A head portion 11 having an isosceles trapezoid shape, an isosceles trapezoidal tail portion 12 having both sides 123 and 124 formed on both sides of an isosceles trapezoid head portion 11, and the head portion (11). 11) is connected to the tail portion 12 and consists of a connecting portion 13 formed with a through hole 131 penetrating up and down inside. That is, both sides of the head portion 11 and the tail portion 12 having an isosceles trapezoidal shape are located on the same straight line, and form a triangular structure by the extension line, and the front / rear surfaces 111 and 112 of the head 11. The front and rear surfaces 121 and 122 of the tail portion 12 are formed parallel to each other. In addition, the connecting portion 13 is formed to be parallel to both sides of the head 11 and the tail portion 12, the head portion 11, the connecting portion 13 and the tail portion 12 is formed integrally. .

In addition, the load bearing portion of the block 10, that is, the midpoint of the both ends and the tail portion 12 of the head portion 11 that can support the load of the block generated from the earth pressure generated in the rear portion and the lower portion ( The center of gravity) is formed to form the most stable mechanical structure, an equilateral triangle shape that can support the load as shown in FIG.

The head portion 11 is a front wall 111 protrudes to the outside during the installation of the retaining wall, parallel to the front and rear surfaces 111 and 112 of the equilateral trapezoidal shape, and to communicate with both side surfaces 113 and 114, An insertion groove 115 is formed at one side thereof, and both sides 113 and 114 are disposed so that the fastening groove 116 into which the other side of the connecting table 13 is inserted is parallel to the front / rear surfaces 111 and 112 having an equilateral trapezoid shape. It is formed to communicate with). That is, the fastening grooves 116 and the insertion grooves 115 formed at the upper and lower portions of the head 11 are parallel to the front and rear surfaces 111 and 112 of the equilateral trapezoidal head 11 and both sides of the head. The upper and lower surfaces of the head portion are formed so as to penetrate the 113 and 114, respectively.

At this time, the width 115h of the insertion groove is formed to be larger than the width 116h of the fastening groove, and the ratio of the width 115h of the insertion groove and the width 116h of the fastening groove is about 1: 3.2 to 3.8 to be maintained. One side of the insertion groove 115 and one side of the fastening groove 116 is formed to be in a straight line with each other.

In addition, the fastening groove 116 and the insertion groove 115 of the block is provided with a long groove shape, such as a rail, one side of the fastening groove 116 is a symbol that is shown by dividing the fastening groove uniformly.

The tail portion 12 is inserted into the backfill soil and backfill rubble at the time of installing the retaining wall to support the block 10 so as to support a solid retaining wall, the plane is formed in an equilateral trapezoidal shape, the front surface 121 is connected to the connecting rod 13 It is connected to the rear side 112 of the head 11 by.

The connecting portion 13 is connected to the head 11 and the tail 13 to integrate the crushed stone is inserted into the through hole 131 through / formed during backfilling by the crushed stone to support the block 10 have.

Figure 5 is an exemplary view showing the configuration of the main connector according to the invention, Figure 6 is an exemplary view showing the configuration of the auxiliary connector according to the present invention, Figure 7 is an illustration showing a combined state of the main / auxiliary connector of the present invention. As shown, the block 10 of the present invention described above is to be connected to each other by a connecting rod 20, the connecting rod 20 is inserted into the block 10a located at the top as shown in FIG. A main connecting rod 21 into which the upper and lower portions are respectively inserted into the fastening groove 116 of the groove 115 and another block 10b disposed below, and a block coupled to the main connecting rod 21 and positioned at an upper portion thereof ( It is composed of a plurality of auxiliary connecting rod 22 is inserted into the insertion groove 115 of 10a).

The main connecting rod 21 has a rectangular bar shape, and the upper and lower portions are integrally formed so as to have a rectangular bar shape, and as shown in FIG. 1, the lower portion of the fastening groove of the block 10b. 116 is inserted into the insertion groove 115 of another block 10a, the upper portion of which is positioned at the upper portion, and the connecting groove 211 into which the auxiliary connecting rod 22 is inserted at the upper rear portion of the lower portion at the upper portion thereof. It is formed with a constant depth in the surface direction (vertical length direction). In this case, the width 21h of the main connecting rod has the same length as the insertion groove width 115h of the block, and the depth of the connecting groove 211 is the length of the main connecting rod 21 protruding out of the fastening groove 116. It is formed on the upper portion of the main connector 21 to be the same as that, that is, the height of the auxiliary connector 22.

The auxiliary connector 22 is coupled to the connection groove 211 of the main connector 21, the fastening portion 221 is inserted into the connection groove 211 on the front protruding / formed, the main connector 21 on the rear Coupling groove 222 having the same shape as the connection groove 211 of the through) is formed penetrating from the top to the lower direction.

That is, the connector 20 is composed of a main connector 21 is inserted into the coupling groove 116 and the insertion groove 115 of the block, and the auxiliary connector 22 is inserted into the connection groove 211 of the main connector. The auxiliary connector 22 is connected to the coupling groove of another auxiliary connector into the coupling groove of one side of the auxiliary connector is connected to the plurality of auxiliary connector is coupled / coupled, the front of the upper and lower blocks according to the number of the auxiliary connector is coupled The negative distance difference, that is, the inclination angle of the retaining wall is variously adjusted.

For example, when one auxiliary connecting rod 22 has an inclination angle of 5 °, when the block 10 is connected with only the main connecting rod 21, the retaining wall is vertically installed, and one main connecting rod 21 is installed. In the case of connecting / combining the blocks after installing the auxiliary connecting rod, the distance value is generated in the front part of the lower block and the upper block by the auxiliary connecting rod installed, and thus the retaining wall has a 5 ° inclination angle. In addition, when two auxiliary connecting rods are used, the retaining wall has a 10 ° inclination angle, and when three pieces are used, the retaining wall has a 15 ° inclination angle.

In addition, the fastening groove width 116h of the block is equal to the width 21h of the main connecting rod, and the insertion groove width 115h of the block is the width of the main connecting rod 21 and the plurality of auxiliary connecting rods 22 connected thereto. It is intended to have a width into which it can be inserted.

8 is an exemplary view showing a vertical retaining wall assembly cross-sectional state using the present invention, Figure 9 is an illustration showing a state of the vertical retaining wall assembled in accordance with the present invention, the vertical retaining wall 1000 using the present invention If you want to install, first cut back to backfill the block, lay the crushed stone 500 on the bottom surface to a certain thickness, then compacted to maintain the horizontal, to provide a foundation for the block installation.

When the base bottom surface of the block installation is completed as described above, the plurality of first row blocks 100 are arranged in a row such that the end points of the block head portions contact each other, and the block fastening of the arranged first row blocks 100 is performed. The main connector 21 is inserted into the groove 116. In this case, as shown in FIG. 1, two main connecting rods are inserted / coupled to each of the block fastening grooves, and each of the main connecting bars is represented by a symbol (eg, a number) displayed by dividing the fastening groove on the upper surface of the block. Install at the same location for each block.

As described above, when the main connecting rod is inserted / combined for each block, a plurality of products may be provided such that the lower end of the main connecting block is in contact with the top surface of the first row block 100 arranged in a row. When the second row block 200 is installed, and the second row block 200 is pushed to the front side so that one side of the main connecting rod contacts one side of the insertion groove 116 of the second row block 200, the second row block 200 is installed by the main connecting rod. First and second row blocks 100 and 200 are installed vertically. In this case, the first row block 100 and the second row block 200 are staggered from each other, as shown in FIG. 9, that is, two main connecting rods installed in one block of the first row are different blocks of the second row. It is installed to be inserted into the insertion groove of each. By the above method, the third row block 300 is installed on the second row block, and the fourth row blocks 300, 4, 5, 6... Install the block. In addition, when the blocks are stacked to a certain height, backfilled with the crushed stone 600 and the field useful soil in the cut portion of the rear of the block, and then compacted, the grid 800 to be connected to the block and the crushed stone 600 and backfilled soil 700 ) To form one sack wall by a block having a certain height. When the sack wall is formed in this way, by repeating the above process to form another sack wall, the retaining wall is formed vertically.

Figure 10 is an exemplary view showing a state of the inclined retaining wall assembly cross-section using the present invention, Figure 11 is an illustration showing a state of the inclined retaining wall assembled in accordance with the present invention, to form a high retaining wall using the present invention If you do, it is necessary to install a slope retaining wall (2000) having a certain slope to withstand the earth pressure, so as in the vertical retaining wall, first cut to the back fill the block, and then laid a crushed stone on the floor to a certain thickness And compacted to maintain level, laying the basis for block installation.

When the base bottom surface of the block installation is completed as described above, the plurality of first row blocks 100 'are arranged in a line so that the end points of the block head portions contact each other, and the first row blocks 100' of the arranged first row blocks 100 ' Insert the main connector into the fastening groove. In this case, two main connecting rods are inserted / coupled to each of the block fastening grooves, and the main connecting rods are installed at the same position for each block by a symbol (eg, a number) displayed by dividing the fastening grooves on the upper surface of the block. do.

As such, when the main connecting rod is inserted / coupled to each block, a plurality of auxiliary connecting couplers are coupled to the main connecting rod so as to have an inclination angle capable of withstanding earth pressure. That is, when the first row block 100 ′ and the second row block 200 ′ are inclined to be layered and installed by the width of one auxiliary connecting rod, the coupling portion of the auxiliary connecting rod is inserted / coupled into the connecting groove of the main connecting rod. In addition, a plurality of second row blocks 200 'may be provided such that the bottom surface is in contact with the top surface of the first row block 100' arranged in a row, and the top and main auxiliary connectors connected thereto are inserted into the insertion groove. When the second row block 200 'is pushed to the front side so that the rear side of the auxiliary connector with the fastening hole is formed in contact with one side of the insertion groove of the second row block 200', the auxiliary connector connected to the main connector First and second row blocks 100 'and 200' are layered and installed. In this case, the first row block and the second row block are staggered from each other like a vertical retaining wall, that is, two main connecting rods installed on one side block of the first row are respectively inserted into insertion grooves of different blocks of the second row. By the above-described method, the third row block 300 'is installed on the second row block, and the fourth, fifth, six,. When the block is installed, the upper block and the lower block are layered by the width of one auxiliary connecting rod installed in the main connecting rod and the retaining wall is formed.

In addition, if the blocks are piled up to a certain height like a vertical retaining wall, they are filled with crushed stone and field useful soil in the cut-out part of the rear of the block, and then chopped, and then a grid is installed to connect the blocks with the crushed stone and the back filled soil. One retaining wall is formed by the block provided, and this process is repeated and the retaining wall which has a constant inclination is provided.

At this time, by adjusting the number of auxiliary connecting connecting / coupled to the main connecting, the inclination angle of the retaining wall is adjusted.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the block of the present invention has the shape of the equilateral triangle that is the most stable in the mechanical structure of the block, thereby improving the stability in the reinforced soil retaining wall method, and freely rotating angle within the maximum angle range from the block shape. Can speak.

In addition, the block tail portion directly receiving the earth pressure and the block head portion in which the connecting rod is inserted are formed to maintain a constant interval, thereby preventing the risk of block dismantling in the event of block breakage caused by earth pressure.

In addition, by adopting the concept of the bar and the connection means of the block, not the concept of the pin, it is possible to receive sufficient force against the earth pressure generated from the rear, and since the shape of the connecting table is simple, it is easy to assemble the block and the block. This improves workability and assembly.

In addition, since a plurality of auxiliary connecting rods are installed in the main connecting rod, the distance between the front surface of the block installed at the bottom and the front of the block installed at the upper side can be adjusted according to the number of auxiliary connecting rods installed, thereby increasing the height of the retaining wall. Accordingly, the retaining wall may be installed to have various inclination angles capable of withstanding earth pressure.

In addition, a symbol (for example, a number) for dividing the fastening groove is described on one side of the fastening groove of the block, so that even a non-expert can easily install the connecting rod at the same position, thereby reducing labor costs and performing a quick work. .

In addition, since the fastening groove and the insertion groove of the block into which the connecting table is inserted are parallel to each other, and the side grooves are formed to communicate with each other on both sides of the block, the assembly of the block by the connecting table can be facilitated. .

Claims (5)

A retaining wall mounting block connecting device; The block connection device is arranged in a line / side to contact the side, the top / bottom contact / installed up and down so as to cross each other, an equilateral trapezoidal shape block having an equilateral triangle-shaped center of gravity, Reinforced earth retaining wall prefabricated block connecting device comprising a connecting rod inserted into the block to connect / support the block and another block The method of claim 1; The block has a plane having an isosceles trapezoidal shape and a fastening groove for communicating both sides on an upper surface thereof, and a head portion having an insertion groove for communicating both sides on a lower surface thereof; A tail having both sides disposed on the same straight line as both sides of the head and having a planar equilateral trapezoidal shape; Reinforced soil retaining wall installation prefabricated block connecting device comprising a connection portion connecting the head and the tail and a through hole penetrating the lower surface from the upper surface in the center. The method of claim 2; The width of the fastening groove and the width of the insertion groove of the head portion of the reinforced block retaining wall installation prefabricated block connecting device characterized in that it has a ratio of 1: 3.2 ~ 3.5. The method of claim 2; Reinforced earth retaining wall installation prefabricated block connection device, characterized in that the fastening groove is divided into equal intervals at one side of the fastening groove at one side of the head. The method of claim 1; The connecting rod is inserted into the retaining wall installation block and the bar-shaped main connecting rod having a connecting groove in the rear portion; The fastening part inserted into the connection groove of the main connector is formed on the front side, and the reinforcement retaining wall installation prefabricated block connecting device comprising a plurality of auxiliary connecting rods having the same coupling groove as the connection groove of the main connector in the rear .