KR102068116B1 - Cube-shaped hollow lightweight material for reducing concrete usage - Google Patents

Abstract

Cube-shaped hollow lightweight material for reducing the concrete usage according to the present invention by inserting and fixing the inside of the deck plate for constituting the interlayer after placing concrete, it is possible to reduce the amount of concrete, thereby reducing the weight of the slab It is possible to improve the durability of the building, it is possible to maintain a uniform quality irrespective of the skill of the operator, it is also possible to omit the additional construction of the insulation inside there is an advantage to shorten the air.

Description

CUBE-SHAPED HOLLOW LIGHTWEIGHT MATERIAL FOR REDUCING CONCRETE USAGE}

The present invention by constructing a hollow lightweight material that can be easily combined with the internal reinforcement of the deck plate used in the construction of the building, it is possible to reduce the amount of concrete used for the construction of the tech plate, coupling between the internal reinforcement and the hollow lightweight material This makes it possible to construct a deck plate of uniform quality, which can shorten the air, and also to reduce the weight of the tech plate, and to improve the insulation performance without additionally insulating the insulation. The present invention relates to a hollow hollow lightweight material in the form of a cube for reducing concrete usage.

In general, in order to construct a building, after placing vertical pillars supporting each structure, vertical buildings are constructed by combining slabs or deck plates for constructing floors.

At this time, after transporting the PC slab produced in the factory to shorten the air to the construction site, the construction method of combining the vertical column and the slab is mainly used.

However, in modern society, as the building has more than 20 floors and it becomes very high, it is difficult to transfer the PC slab to higher floors. Also, when an error occurs in the coupling between the PC structures, the overall stability of the building is deteriorated. .

In order to solve this problem, in recent years, a construction method of placing concrete with a tech plate in the field after installing a plurality of tech plates having a truss structure and horizontally installing each other to form an interlayer has been applied.

This construction method is able to firmly configure the coupling relationship between the vertical column and the tech plate, and is suitable as a method for constructing an ultra-high rise building, but the amount of concrete injected into the tech plate is increased, and the deck plate There is a problem that increases the weight of the.

In addition, there is a problem that the air is increased by additionally configuring a heat insulator on the concrete plate in which concrete is poured for the internal insulation of the building, and the quality is not uniform according to the worker's ability.

In order to solve this problem, according to the Republic of Korea Patent No. 10-1621770, the upper and lower portions are opened, the support wall is formed therein, the hollow portion is formed on both sides of the support wall has a rectangular pillar shape and are spaced apart from each other at a predetermined interval A light body composed of a pair of light weight units, and a cover part disposed above and below the light body and covering the hollow part, wherein the cover part is fastened to the light body and covers the hollow part; It is integrally installed and has a support for supporting the reinforcing bar is installed on the cover and the top and bottom of the cover, the connection support is integrally formed on the cover and is formed long to connect the pair of the cover, the projection portion It is installed in pairs so as to be installed on both sides of the apex, and the pair of edges between the pair of lightweight body units The distance between the support portion is formed to gradually decrease so that the distance between the pair of the connecting support at one end is greater than the distance between the pair of the connecting support at the other end to provide a hollow lightweight body module for the reinforced integral deck plate do.

However, the prior art has a problem that the process between each component is complicated, in particular, concrete does not fully penetrate the hole formed in order to cast concrete.

Therefore, there is a need for a cube-shaped hollow lightweight material for reducing the concrete usage of the new structure that can reduce the construction cost and air by reducing the weight of the slab when combined with the deck plate to improve the internal insulation effect It still exists.

Republic of Korea Patent No. 10-1621770 (2016.05.11.) Republic of Korea Patent Registration No. 10-1601630 (2016.03.03.)

The present invention has been made to solve the above problems, more specifically, it is possible to reduce the weight of the slab by reducing the amount of concrete that is placed inside the deck plate in the field, it is possible to omit the internal insulation work It is to provide a hollow lightweight material in the form of a cube for reducing the concrete usage of the new structure that can shorten the air.

In order to achieve the above object and to solve the above-mentioned problems of the prior art, the present invention, combined with the deck plate 100 used to configure the interlayer of the building to reduce the amount of concrete that can be used to reduce the amount of concrete In the hollow hollow lightweight material of the cube, the hollow lightweight member is coupled to the vertical pillars of the building at right angles to each other to form a deck plate 100 and the hollow lightweight member that is fixed to the inside of the deck plate 100 ( 200 and the shaft member 300 is coupled to the central axis of the hollow lightweight member 200 is a hollow lightweight member 200 is rotated.

According to another embodiment of the present invention, the deck plate 100 is the base plate 110 is configured to be horizontal to the ground, and the upper end of the base plate 110 corresponds to the width of the base plate 110 It consists of a length, a plurality of lower member 120 is spaced apart at a predetermined interval, and the upper end of the plurality of lower member 120, the upper member 140 is formed spaced at a predetermined interval, and the In the central portion of the lower member 120 and the upper member 130, the support member 130 for mounting the hollow lightweight member 200, the lower member 120 and the upper member 140 are connected to each other It characterized in that it comprises a lattice member (lattice, 150) is composed of a truss structure.

According to another embodiment of the present invention, the hollow lightweight member 200 is the first lightweight member 210 is configured in the upper end, the third lightweight member 230 is configured in the lower end, and the first It is composed of the second lightweight member 220 is configured between the lightweight member 210 and the third lightweight member 230 is rotated in a predetermined direction about the shaft member 300, the first, second The light weight members 210, 220, and 230 are characterized in that the through-holes 211, 221, and 231 penetrate in the vertical direction to be coupled to the shaft member 300 are configured.

According to another embodiment of the present invention, in the hollow hollow lightweight material in the form of a cube to reduce the amount of concrete that can be combined with the deck plate 100 used to form the floor of the building to reduce the amount of concrete, the Hollow lightweight material is coupled to the vertical column of the building perpendicular to each other deck plate 100 and constituting the interlayer, the hollow lightweight member 200 and the hollow lightweight member 200 is fixed to the interior of the deck plate 100 and 200 It comprises a shaft member 300 is coupled to the central axis of the hollow lightweight member 200 is rotated, the shaft member 300 is vertically separated through the through-holes (211, 221, of the hollow lightweight member 200) It is composed of a lower shaft member 310 and the upper shaft member 320 coupled to 231, and rotates in a predetermined direction about the shaft member 300 at a predetermined position of the lower shaft member 310. Become Is characterized in that it comprises a rotating member (330).

According to another embodiment of the present invention, the lower shaft member 310 is supported on the base plate 110 of the deck plate 100 and the upper end of the support 311, the upper direction The vertical axis 312 protrudes by a predetermined length, and the support pin 313 protrudes a predetermined length from the outer diameter of the vertical axis 312 at a predetermined position of the vertical axis 312 and crosses the diameter of the vertical axis 312. ), An elastic member 314 of an elastic material seated on an upper end of the support pin 313, and a screw thread 315 formed along an outer diameter at a predetermined position of the vertical axis 312. It is done.

According to another embodiment of the present invention, the rotating member 330 is combined with the second lightweight member 220 of the hollow lightweight member 200, the rotary key 311 is rotated in a predetermined direction, hollow lightweight It includes a seating plate 332 for mounting the third lightweight member 230 of the member 200, and a screw engaging portion 333 is engaged with the thread 315 formed in the outer diameter of the lower shaft member 310 It is characterized by.

According to another embodiment of the present invention, the rotating member 330 constitutes an accommodation space for accommodating the support pin 313 and the elastic member 314 of the lower shaft member 310, the hollow lightweight When the member 200 is pressed downward, the elastic member 314 is compressed, and correspondingly, the rotary key 331 of the rotating member 330 rotates in a predetermined direction according to the shape of the thread 315. The second lightweight member 220 is rotated together according to the rotation direction of the rotary key 331.

According to another embodiment of the present invention, in the construction method using a hollow hollow lightweight material in the form of a cube for reducing the concrete usage, the construction method is based on the ground horizontal to the predetermined position of the vertical column to form the floor of the building Installing the plate (S100), the step of installing the deck plate 100 on the upper end of the base plate is installed (S200), the hollow lightweight member 200 is installed inside the deck plate 100 installed on the base plate Step (S300), the deck plate 100 and the upper end of the hollow lightweight member 200, the step of the upper reinforcement crosses each other (S400), the interior of the deck plate 100 is the upper reinforcement It characterized in that it comprises the step (S500) of pouring the field concrete (C).

According to another embodiment of the present invention, when the hollow lightweight member 200 is installed in the deck plate 100, the second lightweight member 220 of the hollow lightweight member 200 in a predetermined direction It is rotated, it characterized in that the construction so that the support member 130 of the deck plate 100 is seated in the groove of the hollow lightweight member 200 formed by the rotation of the second lightweight member 220.

On the other hand, the description of the technology disclosed herein is only an embodiment for structural or functional description, the scope of the disclosed technology should not be construed as limited by the embodiments described in the text. That is, since the embodiments may be variously modified and may have various forms, the scope of the disclosed technology should be understood to include equivalents for realizing the technical idea. In addition, the objects or effects presented in the disclosed technology does not mean that a specific embodiment should include all or only such effects, and thus the scope of the disclosed technology should not be understood as being limited thereto.

In addition, the meaning of the terms described in the present invention will be understood as follows. The terms “first” and “second” are used to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly may be referred to as a first component as a second component.

Further, when a component is referred to as being "connected" to another component, it should be understood that there may be another component in between, although it may be directly connected to the other component. On the other hand, when a component is referred to as being "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly neighboring", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “include” or “have” refer to features, numbers, steps, actions, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, actions, components, parts or combinations thereof.

Cube-shaped hollow lightweight material for reducing the concrete usage according to the present invention by inserting and fixing the inside of the deck plate for constituting the interlayer after placing concrete, it is possible to reduce the amount of concrete, thereby reducing the weight of the slab It is possible to improve the durability of the building, it is possible to maintain a uniform quality irrespective of the skill of the operator, it is also possible to omit the additional construction of the insulation inside there is an advantage to shorten the air.

1 is a view showing a state in which the hollow light-weight material is applied in the form of a cube for reducing the concrete usage according to the present invention
2 is an enlarged view of a portion A of FIG.
Figure 3 is a view showing a planar portion applied to the hollow lightweight material of the cube shape for reducing the concrete usage according to the present invention
Figure 4 is a view showing a side portion to which the hollow lightweight material of the cube shape for reducing the concrete usage according to the present invention
Figure 5 is a view showing a front portion applied to the hollow lightweight material of the cube shape for reducing the concrete usage according to the present invention
Figure 6 is a view showing a cross-section of the hollow hollow lightweight cube-shaped material for reducing the concrete usage according to the present invention
7 is a view showing a hollow hollow lightweight material in the form of a cube for reducing the amount of concrete used according to the present invention
8 is a view showing a state of use of the hollow hollow lightweight cube-shaped material for reducing the concrete usage according to the present invention
9 to 10 is a view showing a cross-section of the hollow lightweight material of the cube shape for reducing the concrete usage according to another embodiment of the present invention
11 to 15 is a view showing a construction method using a hollow hollow lightweight material in the form of a cube for reducing the concrete usage according to the present invention

Hereinafter, with reference to the preferred embodiment to which the present invention belongs will be described in more detail.

First, Figure 1 is a view showing a state in which the hollow light-weight material is applied in the form of a cube for reducing the concrete usage according to the present invention.

According to the drawings, the present invention has a basic component that the deck plate 100, the hollow lightweight member 200 and the shaft member 300 is coupled.

The hollow lightweight member 200 is inserted into the deck plate 100 as shown in FIG. 2 and then rotated and fixed in a predetermined direction.

As described above, the hollow lightweight member 200 fixed to the inside of the deck plate 100 is configured as shown in FIGS. 3 to 5.

The deck plate 100 is coupled to the vertical pillar of the building at right angles to each other to form an interlayer. In this case, the deck plate 100 may be installed horizontally with respect to the ground, but may be installed at a predetermined angle within a range capable of achieving the same purpose and function.

The deck plate 100 has a support member 130 is further configured to the deck plate is generally used.

In detail, the deck plate 100 is installed horizontally with respect to the ground, and has a base plate 110 having a predetermined thickness, and the upper end of the base plate 110 at the width of the base plate 110. The lower part member 120 having a corresponding direction and length is configured.

The lower port member 120 is spaced apart at predetermined intervals and is configured in plural so that two are configured in pairs.

An upper end portion 140 of the plurality of lower end members 120 is configured to be spaced apart at predetermined intervals.

At this time, the top member 140 is located in the central portion of the plurality of lower member 120 is composed of two pairs, as shown in Figure 5 is configured in the shape of a triangle vertex position.

In the central portion of the plurality of lower member 120 and the upper member 130, the support member 130 for mounting the hollow lightweight member 200 is configured. The support member 130 will be described later in detail.

A lattice member (lattice) 150 having a truss structure is connected between the plurality of lower members 120 and the upper members 140 to improve the structural strength of the deck plate 100.

The hollow lightweight member 200 is inserted and fixed inside the deck plate 100. The hollow lightweight member 200 includes first, second, and third lightweight members 210, 220, as shown in FIG. 230 is divided into three and coupled to each other by the shaft member (300).

In this case, the first lightweight member 210 is configured at the upper end, and the third lightweight member 230 is configured at the lower end.

The second lightweight member 220 is configured between the first lightweight member 210 and the third lightweight member 230, and is rotated in a predetermined direction about the shaft member 300.

The first, second, and third lightweight members 210, 220, and 230 have through-holes 211, 221, and 231 penetrating upward and downward in a central portion thereof to be coupled to the shaft member 300.

In the above it is described that the hollow lightweight member 200 is composed of three members, but the member may be configured to be less than or more within the range that can achieve the same purpose and function.

The hollow lightweight member 200 configured as described above is composed of a polygon of a hexahedron as shown in FIG. 7, and the hollow lightweight member 200 is inserted into the deck plate 100, as shown in FIG. 8. As described above, the hollow lightweight member 200 is fixed to the inside of the deck plate 100 by rotating the second lightweight member 220 around the shaft member 300 in a predetermined direction.

Next, Figures 9 and 10 is a view showing a hollow hollow lightweight material in the form of a cube for reducing the concrete usage according to another embodiment of the present invention.

According to the above embodiment, the shaft member 300 is vertically separated into the lower shaft member 310 and the upper shaft member 320 which are coupled to the through holes 211, 221, 231 of the hollow lightweight member 200. It is constructed.

The rotation member 330 is configured at a predetermined position of the lower shaft member 310, and is rotated in a predetermined direction about the shaft member 300.

The lower shaft member 310 is provided with a support 311 that is seated and supported at the upper end of the base plate 110 of the deck plate 100, the predetermined length in the upper direction at the upper end of the support 3110. The vertical axis 312 protrudes as much as is configured.

The support shaft 312 is configured at a predetermined position of the vertical axis 312. The support pin 313 protrudes from the outer diameter of the vertical axis 312 by a predetermined length and is configured in a shape that crosses the diameter of the vertical axis 312.

The upper end portion of the support pin 313 is formed in a shape surrounding the outer diameter of the vertical axis 312 of the elastic member 314 of an elastic material.

At a predetermined position of the vertical axis 312 is formed a thread 315 formed along the outer diameter, the rotating member 330 is coupled by the thread 315.

An interior of the rotating member 330 has a receiving space for accommodating the support pin 313 and the elastic member 314 therein.

The rotary member 330 is coupled to the second lightweight member 220 of the hollow lightweight member 200 is composed of a rotary key 311 for rotating in a predetermined direction. In the drawings of the present invention, the cross-sectional shape of the rotary key 311 is shown in a trapezoidal shape, but may be formed in a different shape within a range capable of achieving the same purpose and function.

In order to be coupled to the rotary key 311, the second lightweight member 220 is formed with a concave groove in a shape corresponding to the shape and shape of the rotary key 311.

Meanwhile, in order to stably fix the third lightweight member 230 to the shaft member 300, a mounting plate 332 protruding to a predetermined length is formed at a lower end of the rotating member 330.

The rotary member 330 is coupled to the screw thread 315 formed in the outer diameter of the shaft member 310, the screw coupling portion 333 corresponding to the shape and shape of the screw thread 315 is the It is configured in the inner diameter.

The rotating member 330 configured as described above is inserted into the deck plate 100, the hollow lightweight member 200 is inserted, and when pressed in the downward direction, the elastic member 314 is also compressed in the downward direction.

When the elastic member 314 is pressed in the downward direction, the rotating member 330 is also moved downward in response to this, wherein the rotating member 330 in the predetermined direction in accordance with the shape of the screw thread 315 Is rotated.

When the rotary member 330 is rotated correspondingly, the rotary key 331 is also rotated in the same direction, and the second lightweight member 220 is rotated together in accordance with the rotation direction of the rotary key 331, Just by pressing the hollow lightweight member 200 it is possible to fix the hollow lightweight member 200 in the interior of the deck plate 100 has the advantage that can be omitted additional installation work.

In addition, by installing the hollow lightweight member 200 inside the deck plate 100, there is an advantage that can reduce the amount of concrete poured in the field.

In addition, it is possible to omit a separate heat insulation construction due to the hollow lightweight member 200, there is an advantage that can reduce the construction cost and shorten the air.

Next, Figures 11 to 15 are views showing a construction method using a hollow hollow lightweight material in the form of a cube for reducing the concrete usage according to the present invention.

In detail, the step of installing a base plate horizontal to the ground at a predetermined position of the vertical column in order to configure the floor of the building (S100), the deck plate 100 is installed on the upper end of the installed base plate Step (S200), the step of installing the hollow lightweight member 200 inside the deck plate 100 installed on the base plate (S300), the upper end of the deck plate 100 and the hollow lightweight member 200 is upper Reinforcing bars are cross-reinforced with each other (S400), the upper reinforcement is composed of the step (S500) of pouring the site concrete (C) into the interior of the deck plate 100.

At this time, when the hollow lightweight member 200 is installed inside the deck plate 100, the second lightweight member 200 of the hollow lightweight member 200 is rotated in a predetermined direction.

Due to the rotation of the second lightweight member 200, a predetermined groove is formed in the middle portion of the hollow lightweight member 200, the support member 130 of the deck plate 100 is fixed to the predetermined groove It is done.

As the hollow light weight member 200 is fixed and seated by the support member 130 as described above, the hollow light weight member 200 is suspended due to the site concrete (C) being poured into the deck plate 100. There is an advantage that can be reliably cast on-site concrete (C) by preventing.

By using the hollow hollow lightweight material in the form of a cube configured as described above it is possible to reduce the amount of on-site concrete to reduce the load of the slab constituting the interlayer, thereby reducing the air.

In addition, since the hollow lightweight member 200 is easy to use, even if an inexperienced worker works, construction of uniform quality is possible, thereby maintaining excellent quality.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below It can be done.

100: deck plate 200: hollow lightweight member
300: shaft member

Claims (9)

In the hollow hollow lightweight material in the form of a cube for reducing the amount of concrete that can be combined with the deck plate 100 used to configure the floor of the building to reduce the amount of concrete,
The hollow lightweight member is coupled to the vertical pillar of the building at right angles to each other to form a deck plate 100, the hollow lightweight member 200 and the hollow lightweight member 200 is fixed to the interior of the deck plate 100 and 200 Combined with the central axis of the shaft comprises a shaft member 300, the hollow lightweight member 200 is rotated,
The shaft member 300 is composed of a lower shaft member 310 and the upper shaft member 320 which is separated up and down and coupled to the through holes 211, 221, 231 of the hollow lightweight member 200. The predetermined position of the lower shaft member 310 includes a rotating member 330 that is rotated in a predetermined direction about the shaft member 300,
The lower shaft member 310 has a support 311 which is seated on the base plate 110 of the deck plate 100 and a vertical shaft protruding upward by a predetermined length in an upper end portion of the support 311. 312, a support pin 313 protruding a predetermined length from an outer diameter of the vertical axis 312 at a predetermined position of the vertical axis 312 and crossing the diameter of the vertical axis 312, and the support pin 313. Elastic member 314 of the elastic material to be seated on the upper end, and the predetermined shape of the vertical axis 312 of the cube-shaped for reducing the concrete usage, characterized in that consisting of a screw thread 315 configured along the outer diameter Hollow lightweight material.
The method of claim 1,
The rotating member 330 is
A rotary key 311 coupled to the second lightweight member 220 of the hollow lightweight member 200 and rotated in a predetermined direction;
A seating plate 332 for seating the third lightweight member 230 of the hollow lightweight member 200,
Cube-shaped hollow lightweight material for reducing the concrete usage, characterized in that it comprises a screw coupling portion 333 is coupled to the thread 315 configured in the outer diameter of the lower shaft member (310).
The method of claim 1,
The rotating member 330 constitutes an accommodation space for accommodating the support pin 313 and the elastic member 314 of the lower shaft member 310,
When the hollow lightweight member 200 is pressed downward, the elastic member 314 is compressed, and correspondingly, the rotary key 331 of the rotating member 330 is predetermined according to the shape of the thread 315. Rotate in the direction,
The hollow lightweight material of the cube shape for reducing the concrete usage, characterized in that the second lightweight member 220 is rotated together in accordance with the rotation direction of the rotary key 331.
Claim 4 was abandoned upon payment of a set-up fee. In the construction method using a hollow hollow lightweight material in the form of cubes for reducing the concrete usage according to any one of claims 1 to 3, the construction method is
In order to configure the floor of the building step of installing a base plate horizontal to the ground at a predetermined position of the vertical column (S100),
Installing the deck plate 100 on the upper end of the base plate is installed (S200),
In step S300, the hollow lightweight member 200 is installed inside the deck plate 100 installed on the base plate.
In the upper end of the deck plate 100 and the hollow lightweight member 200, the upper reinforcing bars are crossed with each other (S400),
Construction method using a hollow hollow lightweight material in the form of a cube for reducing the amount of concrete, comprising the step (S500) of pouring the site concrete (C) into the interior of the deck plate 100 is the upper reinforcement.
Claim 5 was abandoned upon payment of a set-up fee. The method of claim 4, wherein
When the hollow lightweight member 200 is installed inside the deck plate 100, the second lightweight member 220 of the hollow lightweight member 200 is rotated in a predetermined direction, and the second lightweight member is rotated. Cube-shaped hollow lightweight material for reducing the concrete usage, characterized in that the construction so that the support member 130 of the deck plate 100 is seated in the groove of the hollow lightweight member 200 formed by the rotation of the 220 Construction method using. delete delete delete delete

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