KR200249900Y1 - The air mat supporting post - Google Patents

Abstract

The present invention is designed to safely support the upper frame of a building for the renovation, redevelopment, and reconstruction of the old high-rise buildings in the city, or to raise or lower heavy loads in places where heavy equipment cannot be accessed, The present invention relates to an air mat copper bar made of polyester high-strength three-dimensional fiber, which securely supports a frame to be dismantled at the time of demolition of a building, so that dismantling is very easy.

According to the present invention, by forming an air mat made of high-strength fibers capable of withstanding high pressure air pressure, the outer surface thereof is urethane coated, and the inside of the air mat is a three-dimensional fiber pile connected by vertical piles between the upper and lower fabrics It is provided with an air mat copper bar configured to keep the air mat horizontal when injecting air by bonding the entire surface of the air mat closely with each other by bonding the multi-stage.

Description

The air mat supporting post {The air mat supporting post}

The present invention is designed to safely support the upper frame of a building for the renovation, redevelopment, and reconstruction of the old high-rise buildings in the city, or to lift or lower heavy loads in places where heavy equipment cannot be accessed. The present invention relates to an air mat copper bar made of polyester high-strength three-dimensional fiber, which securely supports a frame to be dismantled at the time of demolition of a building, so that dismantling is very easy.

In general, the copper barrier refers to a stationary member that dismantles a concrete structure which is poured in construction when it is constructed, and then simply supports and supports the weight and work load of the structure until the required strength is completed or required work is completed.

This copper bar is mainly made of wood, steel pipe, pipe support, etc. It is used when constructing a building or bridge. This is a fixed member, so it is not possible to adjust the height during operation, and to lift or lower the structure or weight, and change it according to the weight. You can't. In particular, there is a problem in that it is impossible to support a structure or a heavy object in a narrow and complex place where entry of heavy equipment is impossible, lifting and lifting is not easy, and handling and storage are not easy due to its large volume.

And, when reconstruction, remodeling and demolition of old high-rise buildings are difficult and difficult to enter heavy equipment or high-rise buildings, it is not possible to use blasting methods that affect adjacent buildings and cause ground cracking. By dismantling by dismantling the site by manpower and throwing the crushed concrete mass to the ground floor, noise, dust and vibration are generated. In particular, long-term construction requires a large number of personnel, which leads to excessive labor costs. Since there is no place to support the load and working load, it is a big problem for safe construction, and it is very difficult to support, lift, lower, and dismantle the structure or heavy materials in a narrow and complicated place where heavy equipment cannot be accessed.

It is an object of the present invention to provide an air mat for lifting and lowering heavy materials by using air pressure.

Another object of the present invention is to provide an air mat copper bar for safe and easy installation and dismantling of the structure by loading the air mat copper bar as necessary height at the construction site to support, install and lift the structure.

The air mat copper bar of the present invention for achieving the above object constitutes an air mat woven with high strength fiber that can withstand high pressure air pressure, and the urethane coating is applied to the outer surface of the air mat. It is characterized in that the air mat is kept horizontal when injecting air by bonding the three-dimensional fiber pile connected by the vertical pile in multiple stages so that the entire outer surface thereof is closely bound to the fabric of the air mat.

1 is a partial cutaway example of the air mat

2 is a cross-sectional view of FIG.

3 is an exemplary view of a building dismantling method using an air mat club

Figure 4 is an exemplary view of the laminated state of the air mat

5 is an exemplary view of a dismantling method in which an air mat club is supported for each floor of a building.

6 is an exemplary view of a state in which air from the air mat club is removed after cutting the building;

7 is an exemplary view of a method for dismantling a bridge.

<Description of Symbols for Main Parts of Drawings>

100: copper bar 200: air injection device 1: mat

2 coating layer 3 air inlet 4 pump

5 dispenser 6 hose 7

8: Harpo 9: Vertical pile 10: Three-dimensional fiber pile

11: adhesive layer 12: reinforcing cloth 13: aeration

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings showing a preferred embodiment.

1 is a view illustrating a partial cutaway of the air mat club according to the present invention, Figure 2 is a cross-sectional view of the air mat club, the air mat club 100 of the present invention can withstand a pressure of 1 to 3 kg / ㎠ or more of high pressure air pressure It is composed of a mat (1) having an air chamber therein made of a high-strength fabric woven so that the urethane coating layer (2) is formed on the outer surface, and the air inlet (3) for injecting air is installed at one end and FIG. As shown in FIG. 2, air is injected into the air by the air injection device 200 including the pump 4 and the distributor 5 for distributing a plurality of air and the hose 6.

Inside the mat 1, a plurality of three-dimensional fiber piles 10 connecting the vertical piles 9 between the upper cloth 7 and the lower cloth 8 are laminated and bonded by the adhesive layer 11 so that the entire rim is reinforced. (12) is airtightly bonded so that the air passage (13) is formed, and the entire outer surface thereof is tightly adhered to the fabric inner surface of the mat (1) as the adhesive layer (11) and is inserted and installed in an airtight state. When the air is injected through the air is communicated through the air passage (13) is filled with the inside of the three-dimensional fiber pile (10) to form a flat air mat 100 in a non-swelling state.

The air mat copper bar 100 according to the present invention, as shown in FIG. 4, can be selected and stacked according to the conditions of the work site and the number of stacked floors according to the needs of the construction site. The fabric constituting the fabric is made of high-strength low-shrinkable fiber that can withstand air pressure, and a urethane coating layer (2) is formed on its outer surface, and a vertical pile between the upper fabric (7) and the lower fabric (8). A plurality of three-dimensional fiber piles 10 connected to each other are laminated and bonded by an adhesive layer 11 so that the entire outer surface is firmly connected to the inner surface of the mat 1 of the mat 1 while the entire edge is wrapped as a reinforcing fabric 12. Since it is inserted and installed in a state of bonding and binding, the air mat copper group 100 is durable and can be used repeatedly for a long time, and the multi-stage three-dimensional fiber pile 10 bonded to the inside of the mat 1 Since only the inner surface as a whole to strengthen the bond to form a flat air mat Shore 100 for holding the top and bottom surfaces are horizontal, and not the upper and lower sides of the fabric during the injection of air in the interior of the mat (1) expansion.

In general, when the air pressure is applied to the sealed air mat, the air mat is inflated by the air pressure, and the middle is swollen up like a ball, so the heavy material cannot be raised or lowered and cannot be supported, but the air mat copper club 100 of the present invention is three-dimensional. Since the entire fabric of the mat 1 is bound as the fiber pile 10, the expansion of the mat 1 is suppressed when the air is injected, so that a strong air mat is maintained, and when the air is extracted, the three-dimensional fiber file 10 is naturally folded. The three-dimensional fiber pile 10 is composed of three layers as a preferred embodiment in the accompanying drawings, but it is suitable when the height of the air mat is about 20 to 25 cm in an experimental drawing. Can be arbitrarily added or subtracted according to the size and height of the three-dimensional fiber pile (10) is tightly closed so that the aeration passage 13 is formed as a reinforcement cloth (12) Since it is glued together, when the air is injected through one air inlet (3), the air is evenly injected into the entire interior.

As a result of the experiment, it was confirmed that the mat (1) was able to support, lift and lower the weight of up to about 120 ton when an air pressure of 1 kg / cm 2 was set to 3 × 4m in width × length. According to the Pascal principle that the allowable pressure to lift the weight by the pressure is proportional to the unit area, the allowable pressure of the copper mat of the air mat is proportional to the cross sectional area of the basic air mat.

When explaining the method of lifting and lowering the structure up or down the structure using the air mat copper club 100 of the present invention, when moving the structure or heavy material from the top to the bottom or up from the bottom of the air mat club 100 of the present invention After stacking the quantity corresponding to the height to raise and lower the air injection device 200 and injecting air into the air inlet (3) of each air mat copper club 100, the air mat copper club 100 is expanded in a horizontal state As it rises and rises, it is possible to raise the structure relatively simply from the bottom to the top, and on the contrary, when discharging the air mat through the air inlet (3) when dismounting from the top or the bottom, the expanded air mat club (100) As it is discharged, it contracts slowly and descends, so the structure can be easily lowered and the support state can be easily dismantled. It is good.

When dismantling the building that can effectively use the air mat copper club 100 of the present invention, as shown in Figure 3 loaded to a height that can support the air mat copper club 100 under the top floor to support the upper frame frame from the bottom When the sides of the frame are disassembled in order by cutting or crushing both sides of the frame, the mass of the cut mass is loaded on the air mat, and the air is removed from the air mat and then lowered to the bottom. As in the prior art, it can be removed without dust, noise and vibration.

As another dismantling method, as shown in FIG. 5, the air mat copper bar 100 is installed at each interval of the building at appropriate intervals, and the pillars supporting the interlaminar frames are cut to the air mat copper bar while the upper frame is supported. If it is supported and then the air of the air mat club is sequentially discharged from the upper layer, the height is gradually lowered as the air is discharged, so that the entire frame can be lowered to the ground as shown in the drawing, so that the crushing work can be performed more easily on the ground. Will be.

In addition, the air mat copper bar 100 of the present invention is easy to install in a narrow and complex place where heavy equipment is not accessible, so that it can be conveniently used for lifting and unloading heavy objects at the work site freely. Can adjust the work more convenient, especially the self-weight is very light, it can be easily installed in the building difficult to install heavy heavy equipment can effectively lift the heavy weight, when removing the bridge as shown in Figure 7 air mat copper club (100) It is very effective because it can be easily dismantled from the ground if the top plate is lowered to the ground as the discharge of air by cutting the piers after supporting it by mounting the height to the bottom of the top plate.

As such, the present invention is designed to support the structure as an air mat using air pressure. Therefore, the structure is installed in a narrow and complicated place where it is difficult to enter heavy equipment. As it can be safely released as the air is discharged, the dismantling work of the building can be very convenient in the city where there are many adjacent buildings, and the height is also adjustable.

Claims (3)

In forming the copper bar, a urethane coating layer (2) is formed on the outer surface of the air mat (1) woven from a high-strength low-shrinkable fiber that can withstand air pressure, and inside the air mat (1), a urethane (7) and The edge of the three-dimensional fiber pile 10 connecting the lower fabric 8 with the vertical pile 9 is hermetically bonded to form the air passage 13 as the reinforcing cloth 12, and the entire outer surface thereof is formed of the mat 1 The inner mat and the adhesive layer (11) is closely connected and bonded to the air mat is made to expand the air mat (1) in a horizontal state when injecting air through the air inlet (3). The air mat copper club according to claim 1, wherein a urethane coating layer (2) is formed on an outer surface of the air mat (1). The air mat according to claim 1, wherein the three-dimensional fiber piles (10) are laminated and joined in multiple stages.