KR101003039B1 - Square steel strut for temporary soil sheathing work - Google Patents

Abstract

The present invention relates to a reinforcement made of square steel pipe used in the temporary earthquake construction method, in particular in the reinforcement made of square steel pipe, the lifting means having a rotating hook on the surface of the reinforcement made of square steel pipe fixedly formed, into a square steel pipe If you want to lift the reinforcement of the reinforcement by setting the above-mentioned rotary hook, so that the hook of the lifting equipment is inserted into the rotary hook,

If you want to lift the reinforcement made of square steel pipe, you can hang the reinforcement equipment securely and easily by hanging the hook of the lifting equipment on the revolving hook fixed to the reinforcement itself. It is very reasonable because it minimizes the height of the lifting means protruding to the surface of the square steel pipe so that the stable loading of the props and the use of the props used in the temporary earthquake construction as work paths do not interfere with walking.

Square steel pipe, brace, lifting means, fixture, rotary hook

Description

Square steel pipe brace for temporary earthquake construction with lifting means {Square steel strut for temporary soil sheathing work}

The present invention relates to a brace made of a square steel pipe used in the temporary earthquake construction method, in particular to form a lifting means having a rotary hook on the brace made of a square steel pipe, the hook hook of the lifting means to the rotary hook sphere The brace can be easily carried or moved.

In general, during the excavation of the ground for the construction of a structure (civil engineering / building site), temporary earthquake construction is carried out in the usual way to maintain the safety of adjacent ground by preventing soil collapse and suppressing displacement of excavation backing.

In particular, the recent frequent construction of urban centers has resulted in the demand for settlement of adjacent ground due to ground excavation and the safety of surrounding buildings.

The hypothesis earthquake method is classified into the earth wall method and the earth wall support method. Among them, the earth wall method installed in the downtown area prevents ground collapse and lowers the groundwater level due to the excavation, and thus prevents soil leakage. It should be a method that minimizes settlement of the building.

As a temporary soil wall construction method used in such a downtown area, continuous wall construction methods such as soil cement wall construction (SCW) construction and cast-in-place concrete pile construction (CIP construction) are mainly used. LW grouting, SGR grouting, and JSP method are used for order and ground reinforcement.

In addition, the earth wall method described above is used for the purpose of increasing the rigidity of the earth wall by inserting a pile (H-pile) in the continuous wall.

At the time of construction of the temporary mudstone, the H-pile thumb pile is erected vertically at random intervals, and multiple earth plates are stacked between the flanges of neighboring thumb piles to support the soil wall or rock wall. To secure the wall to the wall, or to install a plurality of struts crossing the bands facing each other, or to anchor the ground anchors to the ground and secure them to the H-pile by the brackets. It fixed and constructed to endure from the earth pressure.

That is, at the same time around the ground to be excavated, construct a large number of thumb piles vertically, excavate the inner space and excavate a number of girders and braces that connect and support the vertical thumb piles facing each other. Install sequentially.

The brace is designed to effectively support the earth pressure acting on the thumb pile and the belt, and to prevent the soil of the excavated soil wall from being lost or collapsed, and the earth plate having a significant pressure on the earth plate stacked up and down between neighboring H-piles. Because of this action, in order to enable stable support from such earth pressure, braces should be formed to maintain the gap between the upper and lower layers of about 2-3m.

In addition, although the number of the braces is different depending on the size of the work site, it is common that a relatively large number of braces in the form of a planar sagittal net is installed horizontally and staggered horizontally.

In particular, the connecting end of the belt and the brace is fastened to form a separate jack support to thereby adjust the length of the brace is also configured to enable easier construction.

However, as described above, since the brace consists of the H-pile as described above, the stiffness in the up and down directions and the left and right directions is generated due to the characteristics of the steel beam of the H-beam. On the contrary, the weak axis direction is formed in the left and right directions, so that the reinforcement work is required by welding the reinforcing pieces in the weak axis direction due to the difference in rigidity according to the axial direction.

Accordingly, as the work process for welding the reinforcing piece at regular intervals in the weak axis direction of the brace is required, it will act as a closing step as well as the cumbersome work process.

As a result, the earthquake construction method has been conceived by using a brace made of a circular steel pipe from the brace in the H-beam form, but the circular steel pipe as described above is moved by the worker walking on the brace. There is a closed end to the establishment and addition of a separate passage or moving path because it cannot play the role of a passage to be done at all, and it is extremely cumbersome and a lot of processes in connecting and combining the brace and the brace and the slope support made of round steel pipes. This will happen.

In other words, the brace and the belt, and the brace and the stiffening material is to make a solid connection between each other through the assembling holes drilled using a plurality of bolts and nuts, in the case of the brace of the circular steel pipe as described above in the form of H-pile In the case of screwing the belt or inclined brace material, the space for screw rotation of the bolt or nut is not secured, so a separate bracket device or an extension fastening part is additionally configured so that the mutual connection is made through them. Therefore, due to the cumbersome and cumbersome connection structure is to act as a cause of greatly deteriorating workability.

Accordingly, by forming a reinforcement connected to a band formed in the transverse direction on one side of the vertically inserted thumb pile into the square root, the square steel pipe is formed by the square steel pipe. It is able to maintain the directionality, but also serves as a safe passageway that allows the worker to easily move or travel through the upper plane, regardless of the directionality, and the brace is made of square steel pipe in the construction state as described above It is known to have superior cross-sectional secondary moments and cross-sectional coefficients compared to a beam or circular steel beam, and to ensure excellent strength from the same unit weight.

However, the braces made of square steel pipes as described above need to carry the loaded braces to the excavation site or the corresponding construction elements in order to carry out the construction of the temporary cladding, as well as to lift them from the transport vehicle to the loading site. ,

The H-beam type brace can be easily lifted by hooking the lifting equipment on the flange or wing, whereas in the case of the brace made of square steel pipe, the entire square steel pipe is wound and fixed using rope or wire. There is an inconvenience to lift them.

In particular, if the binding by the wire is made unstable or the center of gravity changes rapidly in the lifting process of the rectangular steel pipe, the square steel pipe may be separated from the hook or rope of the lifting equipment. Serious safety accidents may occur.

Accordingly, in the case of the braces made of square steel pipes, there is an urgent need for a lifting means that enables rapid and safe lifting and transportation and movement of braces while effectively utilizing various lifting equipments.

The present invention is to solve the problems as described above, to form a lifting means having a rotary hook to the braces made of square steel pipe, and to lift the braces made of square steel pipe lifting equipment above the lifting hook It is an object of the present invention to provide a temporary rectangular steel pipe brace for temporary construction having a lifting means of the characteristic that can be easily lifted, transported, and moved the brace made of square steel pipe by inserting the hook of the rotary hook. will be.

The present invention for achieving the object as described above, in the brace made of square steel pipe, the fixing means of the fixing fixture and the rotating hook is fixed to the surface of the square steel pipe brace, the fixture having a rotary ball to both sides It is spaced apart and fixed to the surface of the square steel tube brace, and the rotating hook having a rotating shaft inserted into the rotating hole to form a lifting hole of the through,

At the time of lifting the square steel pipe, the above hook hanger is placed vertically so that the hook of the lifting equipment is hooked to the lifting hole, and the lifting hook is laid down to close contact with the surface of the square steel pipe brace other than the lifting work. It is done by.

The present invention is to hang the hook of the lifting equipment to the hanging hook fixed to the brace itself when you want to lift the brace made of square steel pipe, it is possible to lift the brace securely and easily, after the lifting operation is finished vertically It is very reasonable because it minimizes the height of the lifting means that protrudes to the surface of the square steel pipe by laying down the rotary hanger of the square, so that it does not interfere with walking even when using the braces used in temporary construction as a work path. .

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

1 is a perspective view of a square steel pipe brace according to the present invention, Figure 2 is another perspective view of the square steel pipe brace according to the present invention, Figure 3 is a perspective view of the lifting means fixed to the square steel pipe brace according to the present invention.

As shown, the present invention is to form a lifting means for easily carrying and moving the braces made of square steel pipe, in the present invention as the lifting means in the present invention welded fixture 20 formed on the surface of the square steel brace 10 20 ') and the rotating hanger 30 is rotatably coupled to the fixtures 20 and 20'.

That is, at least two or more lifting means are fixedly formed in the square steel tube brace 10, and the fixing holes 20, 20 'are rotated in the transverse direction 21 or in the form of grooves. Is formed, it is fixed to the fixture 20, 20 'by welding to the surface of the brace 10 made of square steel pipe in a spaced apart state.

At this time, a separate rotary hook 30 is inserted into the fixture 20, 20 ′, and a rotary shaft inserted into the rotary hole 21 of the fixture 20, 20 ′ in the rotary hook 30. 31 is provided, and the rotary hook 30 is formed with a lifting hole 32 through.

Accordingly, the rotary hook 30 is inserted in the state in which the fixture 20 on one side is welded and fixed to the surface of the square steel tube brace 10, and then the other fixture 20 ′ is inserted into the square steel tube brace 10. When welding fixed to the surface is a fixed installation of the lifting means according to the invention is made.

Therefore, as shown in FIG. 4, the fixtures 20 and 20 'are spaced apart from each other on the surface of the brace 10 made of the square steel pipe, and the rotating hooks (between the fixtures 20 and 20') are positioned. 30 is located, the rotary hanger 30 is a state in which the rotary shaft 31 is located in the rotary hole 21 of the fixture 20, 20 ', as shown in FIG. It is possible to rotate freely.

Accordingly, in order to transport and move the square steel pipe brace 10 through the cited equipment in a city factory or a construction site, the hook of the cited equipment is placed in a state in which the rotary hanger 30 is set up vertically. Hanging on the lifting hole 32 of the rotary hanger 30 will be able to easily lift the brace 10 made of square steel pipe.

Square steel pipe brace 10 having a lifting means according to the invention is convenient and safe lifting operation will be made by using the rotary hook 30 in the loading and construction stages unloaded from the vehicle as described above, while the square When carrying the braces 10 made of steel pipes or storing or transporting them using a vehicle, the above-mentioned lifting means are laid down by laying the rotary hooks 30 fastened to the square steel pipe braces 10 above. Minimizing protruding to the surface of the brace 10 is made of square steel pipe so that the inconvenience of loading and storage and transport by the lifting means does not occur.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

1 is a perspective view of a square steel tube brace according to the present invention

Figure 2 is another perspective view of the square steel tube brace in accordance with the present invention

Figure 3 is a perspective view of the lifting means fixed to the square steel tube brace in accordance with the present invention

Figure 4 is an enlarged cross-sectional view of the square steel tube brace in accordance with the present invention

5 is an operation of the lifting means of the square steel tube brace according to the present invention

Explanation of symbols on the main parts of the drawings

10: brace

20,20 ': Fixture 21: rotating ball

30: rotation hook 31: rotation axis

32: lifting ball

Claims (1)

In the reinforcement (10) made of square steel pipe, the lifting means of the fasteners 20, 20 'and the rotary hook 30 is fixed to the surface of the square steel pipe reinforcement (10), The fixtures 20 and 20 ′ having the rotating holes 21 are fixed to the surface of the square steel tube brace 10 spaced apart from both sides, and have a rotating shaft 31 inserted into the rotating holes 21. Rotating hanger 30 is formed through the lifting hole 32, At the time of lifting of the brace 10 made of square steel pipe, the above-mentioned rotary hook 30 is set vertically so that the hook of the lifting equipment is hooked to the lifting hole 32, and the above-described rotary hook 30 is lifted. ) Lay down the square steel pipe brace for the construction of a temporary earthquake construction having a lifting means, characterized in that it is configured to be in close contact with the surface of the square steel pipe brace (10).

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