KR200201551Y1 - The block for construction - Google Patents

Abstract

The present invention relates to the configuration of a block used to build a shaft or retaining wall, such as a river site or a seawall, and more specifically, a 'c' shaped support member (long rod rebar, etc.) on both sides and top of the block intermediate body. ), Each block can be interlocked by forming an insertion groove for inserting), and forming a locking protrusion at the upper side line and a rear end of the block, and a recess for inserting the locking protrusion of the other block to be joined. By maintaining the strong binding force even in the assembling and construction state of the block before the binding concrete is filled, it is possible to build the block without the flow, separation, or breakage of the block even if the pressure is applied by the earth pressure before the concrete is cured. By stably supporting the condition, safety and precision in the construction process can be improved. Of course, by air (工期) even when curing is completed, the speed and quality of concrete to allow the reinforcement of solidarity will have to be made more robust construction to maintain the state.

Description

Construction Blocks {THE BLOCK FOR CONSTRUCTION}

The present invention relates to the configuration of a block used to build a shaft or retaining wall, such as a river site or a seawall, and more specifically, a 'c' shaped support member (long rod rebar, etc.) on both sides and top of the block intermediate body. ), Each block can be interlocked by forming an insertion groove for inserting), and forming a locking protrusion at the upper side line and a rear end of the block, and a recess for inserting the locking protrusion of the other block to be joined. By maintaining the strong binding force even in the assembling and construction state of the block before the binding concrete is filled, it is possible to build the block without the flow, separation, or breakage of the block even if the pressure is applied by the earth pressure before the concrete is cured. By stably supporting the condition, safety and precision in the construction process can be improved. Of course, by air (工期) even when curing is completed, the speed and quality of concrete to allow the reinforcement of solidarity will have to be made more robust construction to maintain the state.

The self-applied construction block has semi-circular recesses on the upper and lower sides of the block symmetrically to form transversely so that there is no distinction between the upper and lower sides, so that one transverse concrete inflow passage can be formed for each adjacent block. In addition, it is possible to double the number of transverse concrete inflow paths through which molds can flow in the block's construction state by providing drainage holes formed transversely through the center of the block to maintain a more solid installation state. By placing a drain hole that penetrates horizontally in the center of the water to discharge the water generated in the ground where the block is installed to prevent the weakening of the ground to maintain a stable state of construction of the block,

The block of the above-mentioned application is a structure made of concrete that the binding force of the built block is introduced into the longitudinal, transverse concrete inflow passage of each block, that is, self-assembly that can bind each block when the block itself is assembled. If there is no binding structure and the binding concrete filled between the blocks is not cured, that is, it is not completely hardened, when the pressure of the earth pressure filled from the back of the block is applied in the state of weak binding force, In addition, some parts may be flowed or dislodged, and excessive earth pressure may cause safety accidents such as breakdown of the construction, resulting in instability and poor construction, resulting in curing of the concrete for binding. Install the structure to prevent the block from rolling in front of the building block until completion. It was causing problems such as the extension of the construction period on the construction of a hassle and the like.

The present invention is to solve all the problems caused by the conventional structure as described above,

The object of the present invention is to maintain a strong binding force even in the assembly construction state of the block before the binding concrete is filled, even if the pressure applied by the earth pressure before the cured concrete is cured. By making it possible to stably support the construction state without deterioration, it can not only improve the safety process density in the construction process but also strengthen the binding force even in the state of shortening of air and curing of concrete. In providing a sustainable building block,

In order to achieve this purpose,

The present invention provides an insertion groove for inserting a 'c'-shaped binding support member (long rods, etc.) on both sides and an upper surface of the block intermediate body, and a locking protrusion for binding at the upper side line and the rear end of the block, respectively. And, to form a groove that can be inserted into the engaging protrusion of the other block to be coupled, when described in detail the technical configuration of the present invention according to the accompanying drawings.

1 is a perspective view showing the configuration of the subject innovation block.

2 is an exemplary front view of one example of a construction showing a state of binding a block by using an arbitrary binding member.

Figure 3 is an illustration of the main portion cut front of another example of the construction showing a state of binding the subject innovation block using any binding member.

Figure 4 is an exemplary cross-sectional view showing a binding state of the engaging protrusion and the recessed groove which is a main portion of the subject innovation block.

5 is a planar view showing an example of binding of the locking portion in the example of the construction of FIG.

※ Explanation of code about main part of drawing ※

1: Block 2: Front part

3: Rear part 5: Longitudinal concrete inflow passage

6: Semi-circular recessed portion 7: Transverse concrete inflow passage

8: Intermediate 10: Insert groove

11: critical groove 12: horizontal groove

20: insertion protrusion 30: groove groove

Side concavity (4) and front part (2) and rear part (3) are formed in the concave state in the middle of the front part (2) and the rear part (3) to form a longitudinal concrete inflow passage (5) In a known block (1) structure having a semicircular recess (6) for forming a transverse concrete inflow passage (7) formed on an upper surface between them;

Lateral recesses 12 which are formed in the longitudinal direction of the longitudinal grooves 11 and the semicircular recesses 6 which are recessed longitudinally in a state opposite to both sides of the intermediate body 8 where the side recesses 4 are located; ) Consists entirely of An inserting groove (10) configured to insert an arbitrary binding support member (such as a reinforcing rod or a high-strength plastic rod) S;

A binding engaging portion 20 for protruding integrally from the top end of the block 1 and walking the front end of the other blocks to be staggered;

The recess 1 is formed at the rear end of the upper side of the block 1 and includes a recess 30 for inserting the engaging protrusions of the other blocks to be coupled, respectively.

If described in detail the operation of the subject innovation is configured as follows.

Figure 2 shows an example of the construction of the block of the present invention,

The block of the present invention has a construction method in which two semicircular recesses 6 can be joined so that a transverse concrete inflow passage 7 is formed due to its structural characteristics. By building the next horizontal line alternately in a state,

First, each block 1 constituting the bottommost first shaft row on the ground is horizontally connected to form a longitudinal concrete inflow passage 5 so that the first row and the top and bottom directions of the block are reversed so as to be changed. When the second row of blocks are stacked while the bottom surfaces are in contact with each other, the first and second blocks are in a simple contact state in which they are not bound to each other but can flow in any lateral direction, but the same construction as in FIG. As shown in Figure 3 in the state that the main groove 11 of the upper and lower blocks are connected in a straight line, the two inserting grooves 10 are combined to form a '□' as a whole, the inserting grooves 10 When the arbitrary binding member S of the shape is inserted, each block constituting the lowermost first row and each block constituting the second row stacked thereon are bundled together by the binding member S so that the first, Blocks in the two rows form a state in which two blocks are bound together as one.

However, in this state, each block in the first and second rows is bound only two by one, and there is no structure in which the two blocks are bound, so the two bound blocks are still able to flow back and forth.

In such a state, when the blocks of the third row are stacked in a state in which they are staggered on the blocks of the second row as shown in FIG. 2, that is, the contact surfaces of the second row are located in the center, the semicircular recesses of the second and third row blocks 6 ) Are combined to form a transverse concrete inflow passage 7, and as shown in FIG. 5, the binding protrusion 20 of the two second row blocks in which both sides of the front part 2 of the third row block are connected to each other. Part of the front part 2 between the second row blocks, which were caught in a state in contact with the inner surface between the two rows and were restrained from flowing forward and left and right, and at the same time, were able to flow back and forth integrally with the first row. Blocks in the first row and the second row, which were able to flow back and forth, were brought into contact with the binding block 20 of the third row block being blocked (see FIG. 2). The flow is also blocked It is in a state that is suppressed badly.

Thus, the first, second, and third rows of blocks forming one cycle of the construction method are mutually bound in a state of completely blocking the flow to the left as well as the front, and then the first, second blocks on the third row of blocks. By constructing the second cycle in the same way as the column type, the fourth row of blocks are stacked so that the slotting grooves 10 of the upper and lower blocks form a '□' shape as a whole. 'By using an arbitrary binding member (S) of type' 2 'so that the upper and lower two blocks of the third and fourth rows can be bound together into one, wherein the blocks of the fourth row have already Since the flow to the side remains impossible, even in the state in which the blocks of the fifth row are not stacked, the flow in the direction of the jungle due to the earth pressure is suppressed, so that even in the uncured state of the concrete, stable construction can be maintained.

Meanwhile, FIG. 3 shows another example of construction in which the up and down rows are arranged in a straight line. The up and down directions as well as the front and rear directions of the block 1 are alternately inverted and rotated to be opposite. In this case, the blocks that are in contact with the bottom surface are inserted in the state in which the two grooves 10 are combined in a state in which the vertical grooves 11 of the upper and lower blocks are connected in a straight line as described above to form a '□' shape as a whole. 10 to ' 'Blocking engagement portion 20 formed at the top end of the block is inserted into the recess of the other block in a state in which the arbitrary binding member S of the' shape is inserted so that each block is bundled together by the binding member S. 30) all the blocks connected to be in a binding state are bound in such a way that flow is impossible in any direction.

Meanwhile, after the binding support member S is installed, the concrete is filled in the longitudinal concrete inflow passage 5 and the lateral concrete inflow passage 7 so that the blocks 1 are integrally bound together by the cured concrete. do,

The construction block 1 of the present invention is constructed such that the binding block 20 for binding to the block to be built staggered, and through the groove portion 30 is fitted into the binding block 20 for the binding of the block. It is possible to perform a variety of construction methods, of course, to make the binding force more perfect, through the insertion groove 10 and any binding support member (S) fitted to it to restrain the blocks that are built in a straight line. It is possible to bind all the blocks to be connected in the interconnected state, so that individual protrusions, breakaways and flows of one block or one layer can be completely suppressed unless the overall construction state is broken. Even if the curing is not completed, it is possible to have a binding force that can sufficiently support the pressure of the earth pressure through the assembly of the block itself. As well as after the completion of curing of concrete that will have the ability to reinforce the cohesion of the block.

On the other hand, the construction method using the block of the present invention is not limited in the same manner as shown in the drawing, and can be varied in various ways, such as adjusting the row of blocks stacked in a straight line or staggered according to various conditions such as the characteristics of the construction position. The construction can be changed, and the number and position of the insertion grooves can be appropriately changed as necessary, as well as a simple change of the position or number will belong to the technical scope of the present invention.

The present invention as described above is able to stably support the construction state without the flow, detachment or breakdown of the block in the rolling pressure caused by earth pressure even before the concrete filled to bind the block is cured. In addition to improving safety and precision, there is an effect that can maintain a more solid state of construction even after air shortening and curing of concrete.

Claims (1)

Side concavity (4) and front part (2) and rear part (3) are formed in the concave state in the middle of the front part (2) and the rear part (3) to form a longitudinal concrete inflow passage (5) In a known block (1) structure having a semicircular recess (6) for forming a transverse concrete inflow passage (7) formed on an upper surface between them; Lateral recesses 12 which are formed in the longitudinal direction of the longitudinal grooves 11 and the semicircular recesses 6 which are recessed longitudinally in a state opposite to both sides of the intermediate body 8 where the side recesses 4 are located; ) Consists entirely of An inserting groove (10) configured to insert an arbitrary binding support member (such as a reinforcing rod or a high-strength plastic rod) S; A binding engaging portion 20 for protruding integrally from the top end of the block 1 and walking the front end of the other blocks to be staggered; Concave block is formed in the rear end of the upper side of the block (1) construction block, characterized in that it comprises a recessed portion 30 for inserting the engaging protrusion of the other block to be coupled.