KR20210011750A - Assembly type block - Google Patents

Abstract

The present invention relates to a prefabricated block, which allows mortar to flow in a transverse direction as well as a longitudinal direction with respect to masonry blocks when the mortar is placed thereinto for the masonry blocks and allows transverse bars to be easily placed, thereby providing excellent strength such as reinforced concrete for forming a wall using the blocks, increasing lateral force resistance, easily forming the wall on a lintel of an opening by excluding a separate lintel beam and an upper end edge beam, shortening a construction period, and reducing costs.

Description

Assembly type block

The present invention relates to a prefabricated block, and more particularly, when the mortar is poured into the block according to the block masonry, the mortar can flow not only in the longitudinal direction but also in the transverse direction. For ease of use, it has excellent strength like reinforced concrete by forming a wall using the block, and can increase lateral force resistance, as well as easily form a wall by excluding separate lining beams and upper frame beams in the opening seal. It can be done, and also can shorten the construction period and furthermore, it relates to a prefabricated block that can reduce the cost.

In general, bricks, blocks, reinforced concrete, wood, and steel are used as structural materials for construction.

Among the structural materials for construction mentioned above, blocks have been used for simple structures for a long time, but in recent years they are reinforced with reinforced concrete and are increasingly used in houses, apartments, hospitals, storage rooms, factories and other buildings with many walls. It is created, and the market demand is gradually expanding, and the industry workers related to the block and related industries are increasing rapidly.

Here, the above-described general block is a substantially rectangular parallelepiped and is composed of both sides and maguris, and an upper surface and a lower surface, and a plurality of holes penetrating the upper surface and the lower surface are formed.

In the construction of a conventional concrete block configured as described above, a concrete block is constructed by forming a mortar layer on the upper surface of the block.

The conventional concrete block constructed and operated as described above requires curing time because mortar must be used to construct the concrete block, and construction time is required depending on the height of construction.

In addition, after the concrete block is constructed, it is necessary to finish the mortar layer, so not only manpower and time are required, but also the construction of the concrete block requires trained skilled workers, resulting in high labor costs. It takes.

In view of this, a prefabricated block has been published in Patent Application No. 10-2003-0052572.

Looking at, a conventional prefabricated block is a frame body that holds an empty space inside by a thickness forming plate and a first, second side plate, and at least so that it can be stacked to the required height and width by fitting the same shape up, down, left, and right. The first and second side plates are configured to have nieun (b)-shaped fitting protrusions symmetrical to each other at the upper and lower ends and left and right ends of the first and second side plates, respectively.

In addition, the above-described conventional prefabricated block is further formed with a rib for reinforcing rigidity therein, as a means for strongly maintaining the fitted state, and fastening at least one bolt in the longitudinal direction and the transverse direction, respectively. The sphere is provided in the form of a tube, and the bolt fastener has a nut seat having a screw tab formed on the side wall on one side so that a nut having a screw tab formed on each of the inner and outer circumferential surfaces is provided on one side, and contacts the bottom of the head of the bolt The bolt seat is configured to be provided on the other side.

However, in the conventional prefabricated block configured as described above, since thickness forming plates are formed on both sides of the inside of the first and second side plates as described above, after the block is built, when mortar is poured into the inside of the first and second side plates, Although the mortar can flow in the longitudinal direction, it is blocked by the above-described thickness-forming plate and does not flow in the transverse direction, so that the lateral force resistance due to the formation of the wall is inevitably lowered.

In addition, the conventional prefabricated block described above has a disadvantage in that it cannot be cut and used if it is broken or bent during transport, since it is molded of a synthetic resin or metal plate material that is easy to be injected.

Patent Application No. 10-2003-0052572, filing date; July 30, 2003

Accordingly, the present invention was conceived to solve the above-described problems, and when the mortar is poured into the interior according to the block masonry, the mortar can flow not only in the longitudinal direction but also in the transverse direction with respect to the masonry. By making the reinforcement of the wall easier, it is excellent in strength like reinforced concrete by forming a wall using the block, and it is possible to increase lateral force resistance, as well as by excluding separate lining beams and upper edge beams in the opening inlet. It is an object of the present invention to provide a prefabricated block capable of forming a wall, shortening the construction period and further reducing the cost.

Other objects of the present invention will become apparent as the technology progresses.

The prefabricated block of the present invention for achieving the above object includes an inner and outer plate provided to form an inner and outer side of a wall formed by being formed in a rectangular plate shape and masonry by an assembly method, and the inner, Consisting of a connecting member provided in one or a plurality of spaced apart from each other so as to form a block by connecting each inner side of the outer plate to each other, the upper and lower ends of the inner and outer plates It is formed to be lower than the surface and higher than each bottom surface, and is formed so as to be able to flow in both the longitudinal direction and the transverse direction when the mortar is introduced, and the transverse root according to the transverse reinforcement is provided to be positioned inside the block.

Here, the inner plate is formed in a rectangular plate shape, and a stepped inner plate upper stepped surface is formed at the upper end of the outer surface so that other blocks to be assembled to the upper can be assembled in a prefabricated manner. The lower stepped inner plate is formed on the top surface of the other block mounted on the lower side so that it can be assembled in a prefabricated manner. In addition to the right stepped surface is formed, it is characterized in that the inner and outer sides of the inner plate are provided with grooves formed in a longitudinal direction so as to be divided into equal sizes by cutting through a cutter.

In addition, the outer plate is formed in the shape of a rectangular plate, and a stepped outer plate upper stepped surface is formed at the upper end of the outer surface so that other blocks to be assembled to the upper can be assembled in a prefabricated manner. The lower stepped outer plate is formed on the upper surface of the other block mounted on the lower side so that it can be assembled in a prefabricated manner, and the left and right sides are the left and the stepped outer plate so that other prefabricated blocks connected in the longitudinal direction can be assembled in a prefabricated manner In addition to the right stepped surface is formed, it is characterized in that the outer plate is further formed and provided with a groove for dividing the outer plate in the longitudinal direction so as to be divided into the same size by cutting through a cutter at the center of the inner and outer sides of the outer plate.

In addition, the upper surface of the connecting member is characterized in that it is provided with one or more "V"-shaped grooves to facilitate and quickly perform transverse reinforcement.

As described above, according to the prefabricated block according to the present invention, since the mortar flows not only in the longitudinal direction but also in the transverse direction with respect to the masonry block, the strength is excellent like reinforced concrete by forming a wall using the prefabricated block. In addition, not only can the wall with increased lateral force resistance be formed, but also the wall can be easily formed by excluding separate lining beams and upper frame beams in the opening inlet, and further, the construction period can be shortened, thereby reducing cost. There is.

1 is a perspective view showing an assembled block according to the present invention.
Figure 2 is a plan view showing an assembly type block according to the present invention.
Figure 3 is a one-minute cross-sectional perspective view showing the assembled block according to the present invention.
4 is a view showing a state in which the prefabricated block according to the present invention is masonry and the horizontal roots are laid.
5 is a longitudinal cross-sectional view of the assembled block according to the present invention.

Hereinafter, an embodiment of the prefabricated block according to the present invention will be described in detail.

First of all, it should be noted that in the drawings, the same components or parts denote the same reference numerals as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the subject matter of the invention.

As shown, the prefabricated block according to the present invention allows the mortar to flow not only in the longitudinal direction but also in the transverse direction with respect to the masonry when the mortar is poured into the interior according to the block masonry. It is configured to facilitate the back muscles.

That is, the prefabricated block 100 according to the present invention is formed in a rectangular plate shape and provided to form the inner and outer sides of the wall formed by being assembled in an assembly method, and the inner and outer side plates 110 and 130 and , Consisting of one or a plurality of connecting members 150 spaced apart from each other so that blocks can be formed by connecting each inner surface of the inner and outer plates 110 and 130 to each other, the connecting member 150 The upper and lower ends of the inner and outer plates (110, 130) are formed to be lower than each upper surface and higher than each lower surface, and are formed to flow in both the longitudinal direction and the transverse direction when mortar is introduced, and the transverse root according to the transverse root (10) is provided so as to be able to be located inside the block.

In addition, a maguri member 170 having a cross section of a "C" or "ㅓ" shape is further provided on the left side or the right side of the inner and outer side plates 110 and 130 to prevent the mortar from flowing down when the mortar is introduced. It is equipped.

At this time, the fixing of the maguri member 170 is fixed by one end of the connecting member 150 is locked and the other end through a fixing member (not shown) in the shape of a "b" fixed through the maguri member. .

Hereinafter, the prefabricated block according to the present invention will be described in more detail with reference to the accompanying drawings 1 to 3 as follows.

First, the inner plate 110 of the prefabricated block according to the present invention, as shown in the accompanying drawings 1 and 2, is formed in the shape of a square-shaped plate and the inner wall of the wall formed by being masonry in an assembly method. It is provided to form a side surface.

That is, the inner plate 110 is formed in the shape of a rectangular plate, and a stepped inner plate upper stepped surface 111 is formed at the upper end of the outer surface so that other blocks to be mounted upward can be assembled in a prefabricated manner, At the bottom of the inner surface, a stepped inner plate lower stepped surface 112 is formed to be prefabricated on the top surface of other blocks mounted at the bottom during masonry, and other prefabricated blocks connected in the longitudinal direction on the left and right sides are prefabricated. The stepped inner plate left and right stepped faces 113 and 114 are formed and provided to enable mating.

In addition, a groove 115 for dividing an inner plate is formed in a longitudinal direction so as to be divided into the same size by being cut through a cutter (grinder) at the center of the inner and outer sides of the inner plate 110.

In addition, the prefabricated block is cut by cutting through a cutter on the left and right inner and outer surfaces based on the groove 115 for dividing the inner plate so that they can be made into a size of 1/3 or 1/4. A pair of spaced apart inner plates for size adjustment are provided with left and right grooves 116 and 117 further formed.

And, by fixing the blocking plate (iron plate or wooden plate) on both sides according to the wall formation on the left and right sides of the inner side of the inner side plate 110 and removing the mortar after placing it, the finish while excluding the material for maguri The left and right finish grooves 118 and 119 for the inner plate are further formed and provided to enable processing.

The outer plate 130 is formed in the shape of a square plate and is provided to form an outer surface of a wall formed by being assembled in an assembly method.

That is, the outer plate 130 is formed in the shape of a rectangular plate, and a stepped outer plate upper stepped surface 131 is formed on the upper side of the outer surface so that other blocks to be assembled to the upper can be assembled in a prefabricated manner. At the bottom of the side, a stepped outer plate lower stepped surface 132 is formed to be prefabricated on the top surface of other blocks mounted at the bottom during masonry, and other prefabricated blocks connected in the longitudinal direction are prefabricated on the left and right sides. The stepped outer plate left and right stepped surfaces 133 and 134 are formed and provided to enable.

In the center of the inner and outer sides of the outer plate 130, a groove 135 for dividing the outer plate in the longitudinal direction is further formed to be divided into the same size by cutting through a cutter.

In addition, by cutting through a cutter on the left and right inner and outer surfaces based on the center of the outer plate 130, the block is cut to the size of use, for example, to a size of 1/3 or 1/4. A pair of left and right side grooves 136 and 137 spaced apart from each other for size adjustment are further formed and provided so that it can be easily made.

And, by removing the mortar after placing the mortar by fixing the blocking plates on the left and right inner and outer sides of the outer plate division groove 135 at both ends of the wall formation, while excluding material for maguri Left and right finishing grooves 138 and 139 for the outer plate are further formed and provided to enable finishing.

The connecting member 150 is provided in one or a plurality of spaced apart from each other so that blocks can be formed by connecting the inner surfaces of the inner and outer plates 110 and 130 to each other.

That is, the connection member 150 is provided in one or a plurality of spaced apart from each other so that blocks can be formed by connecting the inner surfaces of the inner and outer plates 110 and 130 to each other, It is formed lower than each upper surface of the inner and outer side plates and higher than each lower surface, and is provided to be able to flow in both the longitudinal direction and the transverse direction when the mortar is introduced.

In addition, the upper surface of the connecting member 150 is provided with one or more "V"-shaped grooves to facilitate and quickly reinforce the transverse roots 10.

In the case of forming a wall using the prefabricated block according to the present invention made as described above, first, as shown in FIGS. 1 to 4 of the accompanying drawings, the prefabricated block is connected to the ground in the transverse direction.

That is, after placing the prefabricated block on the ground, the inner right end of the inner plate 110 formed on the right side of the prefabricated block 110 and the right end 134 of the outer plate 130 ), one layer for the wall is formed by placing the left side of the other prefabricated blocks on the ground continuously so that they are connected to each other.

Thereafter, a wall is formed by repeating stacking of other prefabricated blocks from one side of the top surface to the other side.

That is, the lower end of the inner plate 110 and the outer plate 130 of other prefabricated blocks on the inner plate upper stepped surface 111 of the inner plate 110 and the outer plate upper stepped surface 131 of the outer plate 130 Two layers for the wall are formed by successively placing them in a transverse direction to be connected to each other.

When the layer is formed in this way, in the case of using a half size of the prefabricated block on either side of one side and the other side, the inner plate dividing groove 115 formed in the inner plate 110 using a grinder and By cutting through the groove 135 for dividing the outer plate formed on the outer plate 130, it can be quickly and uniformly cut and used.

When the prefabricated block is multi-layered in the same way as described above, the horizontal root 10 is installed in the "V" groove of the connecting member 150 and then the vertical root and the vertical root are laid.

At this time, as shown in FIG. 4, the transverse root is formed so that the upper surface of the connecting member 150 is lower than the upper surfaces of the inner and outer plates 110 and 130 of the prefabricated block, so that the transverse root is the inner and outer side plates of the prefabricated block ( 110,130).

Thereafter, the blocking plate is inserted through the left and right finishing grooves 118 and 119 for the inner plate and the left and right finishing grooves 138 and 139 for the outer plate at one side and the other side of the stacked assembly block.

When both ends are blocked by the blocking plate as described above, the mortar is introduced into the stacked assembly block.

When the mortar is put into the inverted block in which the mortar is stacked as described above, as shown in the accompanying drawing, FIG. 5 not only flows to the lower side, but also the connection member 150 is the upper and lower surfaces of the inner and outer plates 110 and 130 of the prefabricated block. Since it is formed lower and higher, it flows to the left and rear.

A wall using the prefabricated block is completed by the method as described above.

The wall thus completed is formed as a single body in which the mortar is connected to the entire interior of the wall, so that the strength is excellent like reinforced concrete and the lateral force resistance is increased.

Therefore, it is possible to exclude separate inbang beams and upper frame beams in the opening inlets for window formation.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

10; Transverse root 100; Prefab block
110; Inner side plate 130; Outer plate
150; Connecting member 170; Absence

Claims (6)

Prefab blocks,
Inner and outer plates (110, 130) formed in the shape of a square plate and provided to form inner and outer sides of the wall formed by being masonry in an assembly method;
Consisting of one or a plurality of connecting members 150 spaced apart from each other so that blocks can be formed by connecting the inner surfaces of the inner and outer plates 110 and 130 to each other,
The upper and lower ends of the connecting member 150 are formed to be lower than each upper surface of the inner and outer side plates 110 and 130 and higher than each lower surface, and are formed to flow in both the longitudinal direction and the transverse direction when the mortar is introduced. The prefabricated block, characterized in that the transverse muscle (10) according to the reinforcement is provided to be located inside the block.
The method of claim 1,
The inner plate 110 is formed in a rectangular plate shape, and a stepped inner plate upper stepped surface 111 is formed at the upper end of the outer surface so that other blocks to be assembled to the upper can be assembled in a prefabricated manner, and the inner side bottom At the time of masonry, a stepped inner plate lower stepped surface 112 is formed to be prefabricated on the top surface of another block masonry at the lower part, and the left and right sides are formed so that other prefabricated blocks connected in the longitudinal direction can be prefabricated. In addition to the stepped inner plate left and right stepped faces 113 and 114 are formed, the inner and outer sides of the inner plate 110 have a groove 115 for dividing the inner plate into the same size by cutting them through a cutter. ) Is a prefabricated block, characterized in that provided in the longitudinal direction.
The method of claim 1,
The outer plate 130 is formed in the shape of a rectangular plate, and a stepped outer plate upper stepped surface 131 is formed at the upper end of the outer surface so that other blocks to be assembled to the upper can be assembled in a prefabricated manner, and the inner side bottom At the time of masonry, a stepped outer plate lower stepped surface 132 is formed to be prefabricated on the top surface of other blocks mounted at the lower part, and the left and right sides are assembled so that other prefabricated blocks connected in the longitudinal direction can be prefabricated. The stepped outer plate left and right stepped faces 133 and 134 are formed, and the outer plate is divided in the longitudinal direction so that it can be divided into the same size by cutting through a cutter at the center of the inner and outer sides of the outer plate 130 Prefabricated block, characterized in that the groove 135 is further formed and provided.
The method of claim 1,
An assembly type block, characterized in that the upper surface of the connecting member 150 is provided with one or more "V"-shaped grooves to facilitate and quickly reinforce the transverse roots (10).
The method of claim 2,
Spaced apart from each other so that the prefabricated block can be cut to a size of 1/3 or 1/4 by cutting through a cutter on the left and right inner and outer surfaces based on the inner plate dividing groove 115 A pair of inner plate left and right grooves 116 and 117 for size adjustment are further formed, and the blocking plates are fixed to both sides according to the wall formation on the left and right sides of the inner side plate 110, after placing the morta. Assembly block, characterized in that the left and right finishing grooves (118, 119) for the inner plate are further formed and provided so that the finishing process is possible while removing the material for the edge by removing.
The method of claim 3,
Spaced apart from each other so that the prefabricated block can be cut to a size of 1/3 or 1/4 by cutting through a cutter on the left and right inner and outer sides based on the center of the outer plate 130 A pair of size adjustment outer plate left and right grooves (136, 137) are further formed, and the blocking plates are fixed at both ends according to the wall formation on the left and right inner and outer sides based on the outer plate division groove 135 Prefabricated block, characterized in that the left and right finishing grooves (138, 139) for the outer plate are further formed and provided so that the finishing process is possible while excluding the material for finishing by removing the morta after pouring.

Images