The present invention relates to a building material, and more particularly, to a brick assembly which is easily to be connected to each other and environmental friendly.
A conventional interior wall generally includes laminated boards or bricks However, the laminated boards do not provide sufficient structural strength so that they are easily to be damaged. Besides, noise can easily penetrate through the laminated boards and the laminated boards are easily burned.
The interior walls made of bricks are strong and improve all of the inherent shortcomings of the interior walls made of laminated boards. Nevertheless, it takes longer time to build a brick wall because the bricks have to be stacked one by one with concrete applied between the bricks. This requires certain skill and a final finishing process is required to be removed all the concrete that protrude from the surface of the brick wall. Furthermore, if a brick wall has to be removed, the only way is to completely hammer it down and all of the bricks are destroyed and cannot be reused. The broken bricks are heavy and occupy huge space so that how to deal with the used bricks becomes a problem in each area.
Hollow bricks are developed and include spaces defined therein so that they are less heavy and can be connected to each other by connection rods to form a wall. Nevertheless, the connection between the hollow bricks is not reliable and the wall made of hollow bricks is not satisfied in its strength.
The present invention intends to provide a brick assembly which includes multiple hollow bricks which are connected to each other firmly and securely. The brick assembly is also environmental friendly.
The present invention relates to a brick assembly which comprises multiple bricks and each brick has a top surface, a bottom surface, a right side, a left side, a front surface and a rear surface. At least one rib and at least one slot are formed respectively on the left and right sides thereof. Multiple passages are defined through the top surface and the bottom surface and are parallel to each other. Multiple first recesses and multiple second recesses are respectively defined in the top and bottom surface of the brick. Each of the first recesses is located perpendicularly to a longitudinal direction of the brick and communicates with two of the passages in the top surface. Each of the second recesses is located perpendicularly to a longitudinal direction of the brick and communicates with two of the passages in the bottom surface.
Multiple connection units each have a reinforcement bar, a plate and nuts, wherein the reinforcement bar is a U-shaped bar and includes two legs and a connection portion is connected between two ends of the two legs. The legs extend through the passages from the bottom surface of the brick and the connection portion is engaged with the second recess. The plate is engaged with the first recess and the legs extend through the plate and are connected with nuts.
The rib and the slot are dove-tailed shaped.
The brick includes spaces defined therein.
The isolation material is filled in the spaces.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
The connection units each include a reinforcement bar 21, a plate 22 and nuts 23. The reinforcement bar 21 is a U-shaped bar and includes two legs 212 and a connection portion 211 which is connected between two ends of the two legs 212. The legs 212 extend through the passages 13 from the bottom surface of the brick 1 and each leg 212 includes threads 213 defined in an outer surface thereof. The connection portion 211 is engaged with the second recess 16. The plate 22 is engaged with the first recess 15 and includes two holes 221 in two ends thereof. The two legs 212 extend through the two holes 221 and the portion with the threads 213 protrudes from the top surface of the brick 1 and is connected with a nut 23. Each of the bricks 1 includes spaces 14 defined therein. Isolation material 3 is filled in the spaces 14 as shown in
Referring to
As shown in
Furthermore, when using the bricks 1 to built the outer wall of a building, the building can be a combination house which is used as a temporary shelter in the re-construction programs after disasters to protect people from rain and wind. The brick are easily connected to each other to form a strong structure and the shelters made of the bricks can be survived during extreme weather conditions.
The bricks 1 can also be used to construct a display house or a reception center because the bricks 1 are assembled and dis-assembeld easily and quickly. The conventional display house or reception centers are made for temporary purposes and which are simply made of wooden boards and cannot bear heavy rain and low temperature. After the project is over, the conventional display house or reception centers are torn apart and the boards cannot be reused because of severe damage and the cost for building the conventional display house or reception centers can be so high that reduces the profit of the project. The display houses or reception centers made of the bricks 1 of the present invention can bear heavy rain and wind.
As shown in
Of course, the bricks 1′ can be used to build a cylindrical building as shown in
There are advantages of the brick assembly of the present invention, which are:
1. The assembly is easily and efficient to shorten the time required. The bricks are connected to each other by connection members without any cement needed. The conventional bricks have to be connected to each other cement and the cement has to be dried to firmly connect the bricks. The present invention significantly shortens the time required and overcomes the shortcoming of the use of conventional bricks.
2. The bricks of the present invention are connected to each other by suing reinforcement bars and nuts so that the connection is reliable and stronger than the conventional way by using cement. There are gaps between the bricks 1 and the gaps can absorb shock waves during earth quake. The conventional bricks do not have the function.
3. The bricks 1 includes chambers 14 defined therein which can be filled with isolation material 3 to effectively reduce the transmission of heat and noise from one space to another.
4. The bricks 1 can be reused and are high valued green construction material. This is because the bricks are connected to each other by reinforcement bars and nuts so that when they are separated from each other, there will be no without damage to the bricks 1. The bricks 1 are ready to be transported to another site and used after they are separated from each other.
5. The bricks 1 are able to be connected to each other within a short period of time and have great features for providing a warm and strong building to keep wind and rain from the building. The bricks 1 can be quickly transported and built to provide shelters after disasters
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.