KR101235244B1 - Height adjustable building blocks - Google Patents

Abstract

PURPOSE: A construction block having an adjustable height is provided to allow easy construction of a building with a floor that is not level. CONSTITUTION: A construction block having an adjustable height includes a block(200), a nut part(300), and a bolt part(400). The block has at least one longitudinal through hole(201). The nut partis upwardly inserted into the lower portion of the through hole. Plural fixing vanes(310) are longitudinally formed on the outer surface of the nut part. A support(320) is formed to be outwardly protruded along the lower end periphery of the nut part. The bolt part is fastened to the nut part with threads.

Description

Height adjustable building blocks {Height adjustable building blocks}

The present invention relates to a building block capable of height adjustment, and more particularly to a building block capable of height adjustment that can adjust the height of the block by the nut portion and the bolt portion inserted into the through hole of the block.

Generally, a building block is used to construct an outer wall or an inner wall of a building.

Such a prior art is disclosed in Korean Unexamined Patent Publication No. 10-2011-0115784.

1 is a perspective view showing a conventional building block.

As shown in FIG. 1, the building block includes an outer wall facing the building outside. An inner wall is provided opposite the outer wall.

The partition wall is integrally connected to the outer wall and the inner wall to define a plurality of holes between the outer wall and the inner wall.

The plurality of holes may include a first group of holes disposed adjacent to the outer wall and a second group of holes disposed adjacent to the inner wall.

This unitary structure is not only structurally simple but also has high stability compared to the inner and outer wall-separated structures.

However, the above-described prior art has a problem in that it is not possible to construct a building using a block when the ground level for masonry of the block is not aligned, and even if the building is inclined, the building may be inclined.

The present invention has been made to solve the above-mentioned problems of the prior art, the object of the present invention is to provide a building block capable of height adjustment that can adjust the height of the block by the nut and bolt portion inserted into the through hole of the block. It is done.

In order to achieve the above object, the present invention is a block having one or more through-holes in the vertical direction, a screw thread is formed on the inner surface, the nut is inserted into the upper side from the lower side of the through hole, and the thread is formed on the outer surface, It includes a bolt portion screwed with the nut portion, the nut portion is characterized in that it comprises a plurality of fixed blades formed in the longitudinal direction on the outer surface, and a pedestal protruding outward along the lower periphery of the nut portion.

In addition, a polygonal insertion groove is formed in the center of the upper surface of the bolt portion.

In addition, the plurality of fixed blades is characterized in that in contact with the circumferential surface of the through hole.

In addition, the pedestal is characterized in that the contact with the lower surface of the block.

According to the building block which can adjust the height of the present invention as described above, there are the following effects.

Even if the ground is not level, the block can be installed horizontally by adjusting the bolts.

In addition, it can be used simply and conveniently at the construction site.

1 is a perspective view showing a conventional block.
Figure 2 is a cross-sectional view showing a height adjustable building block according to an embodiment of the present invention.
Figure 3 is a perspective view showing a coupling state of the nut portion and the bolt portion of the height adjustable building block according to an embodiment of the present invention.
Figure 4 is a plan view showing a height adjustable building block formed with a through hole according to an embodiment of the present invention.
Figure 5 is a plan view showing a height adjustable building block formed with a through hole according to another embodiment of the present invention.
Figure 6 is a cross-sectional view showing a building block capable of adjusting the height constructed on the inclined surface according to an embodiment of the present invention.
Figure 7 is a perspective view showing a structure using a height adjustable building block according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the height-adjustable building block of the present invention, the block 200 having at least one through hole 210 and 210'210 "in the up and down direction, and a thread is formed on the inner surface thereof, and the lower side of the through hole 210 and 210'210 " Nut portion 300 is inserted into the upper side, and the thread is formed on the outer surface, and the bolt portion 400 is screwed with the nut portion 300, the nut portion 300 is a plurality of longitudinally formed on the outer surface A fixed blade 310 and a pedestal 320 protruding outward along the lower circumference of the nut portion 300.

Figure 2 is a cross-sectional view showing a height adjustable building block according to an embodiment of the present invention, Figure 3 is a nut portion 300 and the bolt of the height adjustable building block according to an embodiment of the present invention 4 is a perspective view illustrating a coupled state of the unit 400, and FIG. 4 is a plan view illustrating a building block having a height control in which the through holes 210 and 210'210 'are formed according to an exemplary embodiment of the present invention.

As shown in Figures 2 to 4, the block 200 is a rectangular columnar shape.

Three through holes 210, 210 ′ and 210 ″ are formed on the upper surface of the block 200, and the number of through holes 210, 210 ′ and 210 ″ may be increased or decreased as necessary.

The block 200 may be made of lightweight foamed concrete (ALC: Autoclaved Lightweight Concrete).

The through holes 210 and 210'210 'are circular holes penetrating from the upper surface of the block 200 to the lower surface.

The nut part 300 has a cylindrical shape in which coupling holes in the vertical direction are formed.

A thread is formed on the inner surface of the coupling hole of the nut part 300.

The nut part 300 is inserted from the lower side of the through hole 210 to the upper side.

Four fixed blades 310 are positioned radially on the outer surface of the nut 300, and are integrally formed on the outer surface of the nut 300.

The fixed blade 310 is formed in the longitudinal direction, the shape of the protrusion protruding from the outer surface of the nut portion 300.

Fixed blade 310 is in close contact with the circumferential surface of the through-holes 210, 210'210 "so that the nut 300, which is screwed with the bolt 400, does not rotate when rotating the bolt 400 to be described later It serves to be fixed by supporting the nut 300.

The pedestal 320 is a circular protrusion protruding outward along the lower circumference of the nut part 300.

The upper surface of the pedestal 320 and the lower surface of the fixed blade 310 is integrally formed.

In addition, the upper surface of the pedestal 320 is in contact with the lower surface of the block 200 so that the nut portion 300 inserted into the through holes 210 and 210'210 "is inserted only up to a predetermined position of the through holes 210 and 210'210". .

The bolt 400 has a shape in which threads are formed on the outer surface of the cylinder.

Bolt portion 400 is inserted into the coupling hole of the nut portion 300 is screwed.

The bolt part 400 may move up and down in the coupling hole of the nut part 300 as it is rotated from side to side.

A polygonal insertion groove 410 may be formed at the center of the upper surface of the bolt part 400.

The insertion groove 410 is most preferably a cube.

Insertion groove 410 is a hole for rotating the bolt portion 400 using a mechanism such as a wrench.

Figure 5 is a plan view showing a height adjustable building block formed with the through-holes 210, 210'210 "according to another embodiment of the present invention.

As shown in FIG. 5, the block 200 may have a transverse cross section in the form of an inverted T.

In addition, the inverted T-shaped block 200 may be manufactured in various forms other than the inverted T according to the needs of the contractor.

As mentioned above, three through holes 210, 210 ′, and 210 ″ are formed on the upper surface of the block 200 having an inverted T shape.

6 is a cross-sectional view showing a building block capable of adjusting the height constructed on the inclined surface 500 according to an embodiment of the present invention.

As shown in FIG. 6, the inclined surface 500 is formed to be lowered from the left side to the right side.

The smaller the distance between the lower surface of the block 200 and the inclined surface 500, the shorter the length of the bolt portion 400 protruding downward of the nut portion 300, and the lower surface of the block 200 between the inclined surface 500 The greater the interval, the longer the length of the bolt portion 400 protruding downward of the nut portion 300.

The length of the bolt portion 400 protruding toward the lower side of the nut portion 300 can be adjusted by rotating the bolt portion 400 from side to side.

It is possible to simply and conveniently align the block 200 even in the inclined surface 500 by rotating the bolts 400 inserted into the through holes 210, 210 ′ and 210 ″ according to the inclined surface 500. I mean.

7 is a perspective view showing a structure using a height adjustable building block according to an embodiment of the present invention.

For convenience of explanation, the bottom column is referred to as the first column.

As shown in FIG. 7, the first column does not have a transverse reinforcement groove 530, and the T-shaped block 200 and the inverted T-shaped block 200 in which the longitudinal rebar holes 510 are formed. )

In addition, the nut part 300 and the bolt part 400 are inserted into the through holes 210, 210 ′ and 210 ″ formed in the block 200 of the first row, thereby increasing the height of the block 200 by rotating the bolt part 400. I can regulate it.

T-shaped block 200 is located on the far left of the first column, the inverted T-shaped block 200 to be in close contact with the right side, the T-shaped block 200 to the right, to the right The T and inverted T-shaped blocks 200 are alternately arranged in such a manner that the inverted T-shaped blocks 200 are located.

However, depending on the builder's choice, the inverted T-shaped block 200 may be located on the far left side of the first column, the right T-shaped block 200 on the right, and the inverted T-shaped block 200 on the right. ), The T-shaped block 200 may be alternately arranged to the right.

The second row includes a T-shaped block 200 ″ and a reverse T-shaped block 200 ″ in which a transverse reinforcement groove 530 and a longitudinal rebar hole 510 are formed.

The block 200 ″ positioned in the second column has the same shape as the block 200 ″ positioned in the fourth column described later.

T-shaped block 200 "is located at the far left of the second column, and inverted T-shaped block 200" is in close contact with the right side, T-shaped block 200 "to the right, and the right side thereof The T and inverted T-shaped blocks 200 "are alternately arranged in such a manner that the inverted T-shaped blocks 200" are positioned.

However, depending on the contractor's choice, the inverted T-shaped block 200 "may be located at the far left of the second column, the right T-shaped block 200" at the right, and the inverted T-shaped at the right. The block 200 ", on the right side thereof, may be alternately arranged in a T-shaped block 200".

The lower surface of the block 200 ″ positioned in the second column is in contact with the upper surface of the block 200 positioned in the first column.

In the third row, there are no rebar grooves 530 in the transverse direction, and the block 200 'is formed with the rebar holes 510 in the longitudinal direction.

T-shaped block 200 'is located at the far left of the third column, and inverted T-shaped block 200' is tightly attached to the right side, T-shaped block 200 'is the right side thereof, and the right side thereof. In the manner that the inverted T-shaped block 200 'is positioned, the T and inverted T-shaped blocks 200' are alternately arranged.

However, depending on the contractor's choice, the inverted T-shaped block 200 'may be located at the far left of the third column, the inverted T-shaped block 200' to the right, and the inverted T-shaped block to the right. 200 ', the T-shaped block 200' may be alternately disposed to the right.

The bottom surface of the block 200 'located in the third column is in contact with the top surface of the block 200 "located in the second column.

The fourth column includes a T-shaped block 200 " and an inverted T-shaped block 200 ", in which a transverse reinforcement groove 530 and a longitudinal rebar hole 510 are formed.

At the far left of the fourth column, the T-shaped block 200 "is positioned, and the inverted T-shaped block 200" is in close contact with the right side thereof, and the T-shaped block 200 "to the right side thereof, and to the right side thereof. The T and inverted T-shaped blocks 200 "are alternately arranged in such a manner that the inverted T-shaped blocks 200" are positioned.

However, depending on the contractor's choice, the inverted T-shaped block 200 "may be located on the far left of the fourth column, the inverted T-shaped block 200" on the right, and the inverted T-shaped block on the right. 200 ", the T-shaped block 200" may be alternately disposed to the right.

The lower surface of the block 200 ″ positioned in the fourth column is in contact with the upper surface of the block 200 ′ positioned in the third column.

As such, the blocks 200, 200 ', and 200 "may be continuously stacked vertically or horizontally.

In addition, the reinforcing bars 550 are inserted into the reinforcing bar grooves 530 and the rebar holes 510 in the longitudinal direction, and mortar is poured.

When the blocks 200, 200 ', and 200 "are stacked, an inverted T-shaped block 200" of a second row is stacked on the upper surface of the block 200 having a T shape of the first row, and an inverted T-shaped shape of the second row. T-shaped blocks 200 'of the third column are stacked on the upper surface of the block 200 "of the block, and T-shaped blocks 200' of the third column of the third column are formed of the inverted T-shaped block 200" of the fourth column. ) May be stacked in a stacked manner.

The contractor can change the shape of the block (200, 200 ', 200 ") and the arrangement order as needed.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be practiced by variously modifying or modifying the present invention without departing from the spirit and scope of the invention described in the claims. can do.

200, 200 ', 200 ": blocks 210, 210', 210": through holes
300: nut 310: fixed blade
320: pedestal 400: bolt portion
410: insertion groove 500: inclined surface
510: reinforcing hole 530: reinforcing groove
550: rebar

Claims (4)

A block having at least one through hole in an up and down direction;
A threaded portion is formed on an inner surface thereof and has a cylindrical nut part inserted into an upper side from a lower side of the through hole;
Includes a screw thread formed on the outer surface, the bolt portion is screwed with the nut portion;
The nut portion is a radially adjustable building block comprising a plurality of fixed wings formed in the longitudinal direction over the entire height of the outer surface of the cylinder in the radial shape, and a pedestal protruding outward along the lower circumference of the nut portion. .
The method according to claim 1,
The height-adjustable building block, characterized in that the polygonal insertion groove is formed in the center of the upper surface of the bolt.
The method according to claim 2,
The plurality of fixed wings is a height adjustable building block, characterized in that in contact with the circumferential surface of the through hole.
The method according to claim 3,
The pedestal is a height adjustable building block, characterized in that in contact with the lower surface of the block.

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