KR20130010279A - A prefabricated brick - Google Patents

Abstract

PURPOSE: A prefabricated brick is provided to efficiently construct a wall in a short time by vertically and horizontally coupling multiple prefabricated bricks to each other. CONSTITUTION: A prefabricated brick comprises a main body(1) and a partition member(2). The main body comprises a front plate(11), a rear plate(12), and left and right side plates(13,14). The rear plate is separated from the front plate. The left and right side plates are formed on both sides of the front and rear plates to form the inner space in the main body. The top and bottom of the main body are open. The partition member is installed inside the main body and has multiple middle plates(21,22,23) and connection plates for dividing the inner space of the main body.

Description

Prefab Bricks {A PREFABRICATED BRICK}

The present invention relates to prefabricated bricks, and more particularly, the prefabricated bricks can be easily manufactured by putting various materials into the partition spaces of the bricks that are prefabricated to each other, making it easy to manufacture a shaft or a wall, and thus, the cost is short and the working period is shortened. It is about.

In general, the blocks used for wall construction are mainly used for building after mixing sand, cement and additives in a constant ratio, putting them in a fixed mold, removing them, and hardening them. Blocks are mortars, and the walls are constructed by stacking them while joining adjacent blocks.

Particularly, conventional building blocks include concrete blocks and red bricks, and because concrete blocks are heavy, they do not move a large amount at a time, and are moved many times, thus requiring a lot of work time. There is an increasing problem.

In addition, in the case of constructing the wall using the building block, the worker has to stack by lifting one block, and thus the construction period cannot be shortened as the work time for installing the wall increases, and the construction cost increases. .

On the other hand, as a prior art for prefabricated bricks, the ocher brick structure of the Republic of Korea Utility Model Registration No. 0320826 is published on July 22, 2003.

Looking at the prior art, it is possible to assemble by forming a concave-convex in the constitution of the ocher brick to be assembled in a puzzle type, and inserting the formed concave-convex with each other, in particular to facilitate the adhesion between the brick and the brick By forming some side mortar grooves on both sides, mortar is designed to be stable and adhere a lot.

However, the prior art still has a problem that the weight is heavy and difficult construction work brick, takes a long time.

The present invention is to solve the problems as described above, made of a lightweight material, easy to handle and easy to assemble, by filling a hardening material such as cement mortar and insulating material in the assembled wall in a short time to a wall of a certain area Its purpose is to provide prefabricated bricks that can be completed so that workability can be greatly improved.

In addition, there is another object to provide a prefabricated brick that can be connected to a plurality of prefabricated bricks by forming the assembling protrusion and the assembly groove on the outside of the prefabricated bricks can be improved work efficiency.

The object of the present invention is composed of a front plate provided at the front, a rear plate provided to be spaced apart from the front plate, left and right plates formed on both sides of the front plate and the back plate, the space is formed inside The upper and lower parts are opened to form an opening; It can be achieved by a prefabricated brick, characterized in that it comprises a partition member which is installed in the main body and comprises a plurality of intermediate plates and connecting plates to divide the space.

The dividing member includes a first intermediate plate, a second intermediate plate, and a third intermediate plate which are arranged in parallel with the front plate and the rear plate, and are formed to be perpendicular to the first intermediate plate, the second intermediate plate, and the third intermediate plate. It is composed of a plate, characterized in that a plurality of filling grooves are formed in the space in the body by the partition member.

A first assembly groove is formed at the upper end of the main body, and a first assembly protrusion is formed at the lower end so as to be fitted in a fitting manner. It is formed by the inner step formed in the upper, the first assembly protrusion is characterized in that the lower end of the front plate and the rear plate protruding to a predetermined length.

A second assembly protrusion is formed on one of the edges of the right plate and the left plate, and a second assembly groove corresponding to the second assembly protrusion is formed on the other of the right plate edge and the left plate edge. It is characterized in that the prefabricated brick is fitted in the transverse direction.

The first plate and the second plate are formed in the left plate, the right plate and the connecting plate, respectively.

Both side ends of the main body is characterized in that it comprises a support frame is installed.

According to one embodiment of the present invention as described above, first, it is possible to combine the individual bricks prefabricated easily up, down, left and right.

Second, it is possible to manufacture eco-friendly walls by putting ocher in the compartment of prefabricated bricks.

Third, by putting the insulation in the compartment of the prefabricated bricks can be built on the weekend farm warehouse or prefabricated small beans, in this case, the cost is reduced compared to the container box.

Fourth, since the soil is put into the prefabricated brick has a property of moving directly up and down, anyone can easily build a shaft or wall.

Fifth, it is possible to vary the size of the individual bricks of the prefabricated bricks, for example, it is possible to extend the inner compartment to several, even if the size is 1m high, 1m long, 30cm wide, the work is empty If the size is doubled, two people can work together, so the working period can be doubled.

Sixth, it is possible to build a wall to a height of two or more levels by putting cement in the space of prefabricated bricks, and 100% recycling is possible when sand is used, and soil in one space and cement in the other space. Do.

Seventh, the interior is empty space, the compartment is made of synthetic resin is low price, and when dismantled prefabricated bricks can be recycled synthetic resin.

Eighth, it can be used to protect crops from wild boars or wild animals. It can be used as a pillar to prevent the collapse of vinyl houses.

1 is a perspective view of a prefabricated brick according to the present invention from the top,
Figure 2 is a perspective view of the prefabricated brick according to the invention from the bottom,
3 is a plan view of a prefabricated brick according to the present invention;
Figure 4 is a state diagram used for the prefabricated brick according to the invention.

Hereinafter, a preferred embodiment of the prefabricated brick according to an embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 4, prefabricated brick (A) according to a preferred embodiment of the present invention, the box-shaped body (1), the partition member 2 coupled to the inside of the main body (1) It is composed.

The main body 1 includes a front plate 11 provided at a front surface, a rear plate 12 spaced apart from the front plate 11, and a left side formed at both sides of the front plate 11 and the back plate 12. It consists of the right side plates 13 and 14, a space is formed inside, and the upper and lower parts are opened and the opening part is formed.

The partition member 2 is provided in the main body 1 to divide the space into the first intermediate plate 21, the second intermediate plate 22, the third intermediate plate 23, and the first intermediate plate 21. And a connecting plate 24 formed to be orthogonal to the middle portion of the second intermediate plate 22 and the third intermediate plate 23.

The main body 1 is a lightweight material such as synthetic resin or wood and is formed of a rectangular parallelepiped or a cube, and has a structure in which an upper portion and a lower portion are opened or a blocking plate (not shown) is formed on the lower portion.

In other words, when a plurality of main bodies are stacked on the upper and lower parts, the upper and lower parts are preferably opened to facilitate the injection of cement mortar. However, when only one main body is used, the lower part is preferably blocked.

The partition member 2 is made of a lightweight material such as synthetic resin or wood, the partition member 2 is the first intermediate plate 21, parallel to the front plate 11 and the rear plate 12, The intermediate plate 22, the third intermediate plate 23 and the connecting plate 24 formed orthogonal to the first intermediate plate 21, the second intermediate plate 22, the third intermediate plate 23 do.

Accordingly, when the partition member 2 is coupled into the main body 1, the main body 1 is formed by the connecting plate 24, the first intermediate plate 21, the second intermediate plate 22, and the third intermediate plate 23. A plurality of filling grooves are formed in the compartment, and the insulation or cement mortar is injected into the plurality of filling grooves thus formed.

Preferably, the first intermediate plate 21 and the third intermediate plate 23 are disposed close to the front plate 11 and the rear plate 12 of the main body 1, and the second intermediate plate 22 is the first plate. And a first filling groove 31 close to the front plate 11 and the rear plate 12 is formed on both sides of the second middle plate 22 by being widely spaced apart from the third middle plate 21 and 23. The width is narrower than the filling groove (32).

Insulating material is inserted into the first filling groove 31 formed as described above, and a hardening material such as cement mortar is injected into the second filling groove 32.

Meanwhile, the first assembly groove 4 is formed at the upper end of the main body 1, and the first assembly protrusion 5 is formed at the lower end.

That is, the first assembly groove 4 is formed above the front plate 11, the rear plate 12, the left plate 13, and the right plate 14, and the lower plate corresponds to the first assembly groove 4. The first assembly protrusion 5 is formed.

The first assembly groove 4 is formed by the inner step 42 formed in the upper part of the front plate 11 and the upper surface of the rear plate 12 in a predetermined depth.

The first assembly protrusion 5 has lower ends of the front plate 11 and the rear plate 12 protruded to a predetermined length, and the length thereof is formed to be equal to the depth of the first assembly groove 4.

Therefore, a plurality of prefabricated bricks A may be stacked up and down by using the first assembling groove 4 and the first assembling protrusion 5 to be connected to each other to be installed.

Meanwhile, a second assembly protrusion 6 is formed at one of the edges of the right plate 14 and the left plate 13, and the second assembly protrusion 6 is formed at the other one of the edge of the right plate 14 and the left plate 13. A second assembly groove 7 corresponding to the assembly protrusion 6 is formed.

That is, the second assembly groove 7 is formed in the right side plate 14 of the main body 1, and the second assembly protrusion 6 is formed in the left side plate 13.

Of course, the second assembling protrusion 6 and the second assembling groove 7 may be formed by changing positions, and there is no functional difference even if the positions thereof are changed.

Thus, by using the second assembling protrusion 6 and the second assembling groove 7 formed on the side of the main body 1 can be constructed by connecting a plurality of prefabricated bricks (A) to each other in the transverse direction.

Meanwhile, the first through hole 81 and the second through hole 82 may be formed in the left side plate 13, the right side plate 14, and the connecting plate 24 constituting the main body 1, respectively.

The first through hole 81 is formed in a space between the first middle plate 21 and the second middle plate 22, and the second through hole 82 is the second middle plate 22 and the third middle plate 23. ) Is formed in the space between.

Therefore, when a plurality of prefabricated bricks (A) are connected, the adjacent prefabricated bricks (A) are connected to each other by the first through-hole (81) and the second through-hole (82), through the prefabricated brick (A) on one side When the cement mortar is injected, it may be supplied to adjacent assembled bricks A through the first and second through holes 81 and 82, so that uniform cement mortar may be injected between the respective prefabricated bricks.

Of course, the first and second through holes 81 and 82 are not formed in the prefabricated brick A disposed at the edge of the wall 100 in which the plurality of prefabricated bricks A are connected. None is preferred.

On the other hand, a plurality of prefabricated bricks (A) configured as described above is to be assembled vertically and vertically to complete the wall 100 can be more durable, and the appearance of the finished wall 100 to be beautiful The support frame 200 in the form of a plate is attached to both ends of the finish.

Referring to the construction of the prefabricated brick according to the present invention configured as described above are as follows.

Since the prefabricated bricks according to the present invention are assembled in a prefabricated manner, a plurality of prefabricated bricks (A) may be coupled up and down and left and right to form a wall 100 having a desired size.

After the wall 100 is formed, the support frame 200 is erected at both ends of the wall 100, and then the hardening material of various materials is supplied into the wall.

For example, the first filling groove 31 adjacent to the front plate and the back plate of the prefabricated brick (A) is put into the heat insulating material, the second filling groove 32 inside the cement mortar or loess to put the environmentally friendly wall It is possible.

In addition, since the prefabricated brick according to the present invention has a partition space of several layers, it is possible to supply different materials for each floor, for example, to put the insulation in the compartment of the prefabricated brick and build a weekend farm warehouse or a prefabricated small bean film. In this case, the cost is reduced compared to the container box.

Alternatively, cement can be built into the space of prefabricated bricks and the walls can be built up to a height of two or more levels.If sand is used, 100% recycling is possible, and soil can be supplied to one space and cement to the other. It is also possible to supply a sound absorbing material to some layers.

And it is possible to vary the size of the individual bricks of the prefabricated brick according to the present invention, for example, it is possible to extend the number of compartments inside, even if the size is 1m high, 1m long, 30cm wide, the interior space is empty Therefore, it is possible to work, and if the size is doubled, two people can work together, so the working period can be doubled.

It is preferable that the unit brick is made of a synthetic resin, and in this case, the price is low, and when dismantling the built prefabricated brick, the synthetic resin can be recycled.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

One ; Main body 2: division member
4: first assembly groove 5; 1st assembly protrusion
6: second assembling protrusion 7; Second Assembly Home
11: front panel 12: rear panel
13: left side plate 14: right side plate
21: first intermediate plate 22: second intermediate plate
23: third intermediate plate 24: connecting plate
31,32: First and second filling groove

Claims (8)

It consists of a front plate provided at the front, a rear plate provided to be spaced apart from the front plate, the left and right plates formed on both sides of the front plate and the rear plate, the space is formed inside, the upper and lower portions are open to the opening The body is formed;
A partition member installed in the main body and configured of a plurality of intermediate plates and a connecting plate to divide a space;
Prefabricated bricks comprising a. The method of claim 1,
The dividing member includes a first intermediate plate, a second intermediate plate, and a third intermediate plate which are arranged in parallel with the front plate and the rear plate, and are formed to be perpendicular to the first intermediate plate, the second intermediate plate, and the third intermediate plate. Consists of plates,
Prefabricated bricks, characterized in that a plurality of filling grooves are formed in the space in the body by the partition member. The method of claim 2,
The main body has a first assembly groove is formed at the top, the first assembly protrusion is formed at the bottom,
The first assembly groove is embedded in a predetermined depth at the upper end of the front plate and the rear plate is formed on the inner upper,
The first assembly protrusion is formed to protrude at the lower end of the front plate and the back plate,
Prefabricated bricks, characterized in that a plurality of prefabricated bricks are fitted to fit up and down. The method of claim 1,
A second assembly protrusion is formed on any one of the right side plate and the left side plate,
The other one of the right side plate and the left side plate is formed with a second assembly groove corresponding to the second assembly protrusion,
Prefabricated bricks, characterized in that the plurality of prefabricated bricks are fitted in the transverse direction. The method of claim 1,
Prefabricated bricks, characterized in that the left plate, the right plate and the connecting plate is formed with a first through hole and a second through hole respectively cement cement mortar. The method of claim 1,
The main body is a prefabricated brick, characterized in that the support frame is installed and finished at both ends. The method of claim 1,
The main body and the partition member is a prefabricated brick, characterized in that made of synthetic resin or wood. The method of claim 1,
Prefabricated bricks, characterized in that the blocking plate is formed in the lower portion of the main body blocked.

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