KR200398758Y1 - Wale having reinforcement structure for preventing from buckling and falling down - Google Patents

Abstract

In the present invention, in the construction of temporary earthenware, in particular, a band member mounted horizontally on the thumb pile is formed as a large cross-section band member, and one side wing of the band member has a point reinforcement plate having a protruding reinforcement plate and a reinforcing rod at regular intervals. Formed a plurality, the point reinforcing bar has the most effective support by adjusting the number and adjustment of the interval, selective adjustment of the direction according to the strength of the earth pressure according to the condition of the soil,

The point reinforcement that allows the thumb pile and the support of the belt to be increased even when using the large section belt member, the large section belt member is not buckled or conducted even if the pressure of the brace is increased. In addition, it is possible to drastically shorten the air by reducing the number of steps of construction joints, while reducing the cost of construction by increasing the use of materials, and widening the working radius of excavation and construction equipment. It is for a large cross-section banding member having a point reinforcement for buckling and falling prevention with possible features.

Description

Large cross-section belt with point reinforcement for buckling and fall prevention {Wale having reinforcement structure for preventing from buckling and falling down}

The present invention, in the construction of temporary cladding, by changing the band member installed on the thumb pile into a large section band member, and by forming a reinforcement point having a plurality of reinforcement plate and reinforcement on one side of the band member, It has an effective earth pressure bearing force, but it can form a wider gap as the earth pressure bearing force is increased, reducing the step number of construction joints, shortening the air and reducing construction cost and digging equipment due to the reduction of material usage. It is about a large cross section strip material having a point reinforcement for buckling and fall prevention to secure a wider working radius of construction equipment so that more convenient construction can be made.

Existing earthquake construction is divided into concrete permanent earthquake construction, which is integrally formed on earth or rock walls, and temporary earthquake construction, which is installed to prevent soil walls or rock walls from collapsing only during excavation, and then dismantled after completion.

In general, during construction of temporary mudstones, the thumb piles are erected vertically at random intervals, and a plurality of earth plates are stacked between the flanges of neighboring thumb piles to support the soil wall or rock wall and at the same time to fix the thumb piles to the wall. A large number of struts crossing the thumb pile between the wall and the wall was installed, or the earth anchor was fixed to the ground, and it was firmly fixed to the thumb pile by a bracket and constructed to withstand the earth pressure.

That is, a plurality of thumb piles are vertically placed at regular intervals around the ground to be excavated, and a plurality of braces that connect and support the vertical thumb piles facing each other are excavated in sequence from the upper side at the same time To install.

The buttress is to effectively support the earth pressure acting on the thumb pile to prevent the excavated earth wall to melt or collapse,

Soil pressure of a considerable pressure is applied to the earth plate stacked up and down between neighboring piles, so in order to enable stable support from such earth pressure, a support beam having an upper and lower layer gap of about 2 to 3 m should be formed. In order to support one brace on the thumb pile, a separate strip is laid horizontally and then the end of the brace is brought into contact with and fixed to the side of the strip.

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.

1 shows a thumb pile 200, 200 'and a strip member 201, and a brace 202, 202' constructed in a temporary construction as described above, the thumb is poured vertically to the destination board After carrying out the digging work on one side of the pile (200, 200 '), and fastening the belt member 201 to one exposed surface of the thumb pile 200 (200'), the belt member positioned in the symmetrical direction The 201 is supported and fixed by the braces 202 and 202 'having a predetermined interval so as to effectively support the earth pressure generated from the surrounding ground.

However, in this excavation portion formed in a multi-layer with a regular intervals up and down with a spacing of 2 to 3m in this way, the construction is constructed by sequentially pouring upwards from the foundation floor and the lowest basement layer by concrete framework. The floors are constructed with a height of about 4 to 4.5m. As described above, one layer having a height of 4 to 4.5m cannot be constructed at a time by the braces installed at intervals of 2 to 3m. There is a problem.

Therefore, in order to construct one floor, first construct a strata with a height of 2 to 3 m, wait for the concrete to be cured completely, and then disassemble all the braces located at the upper part of the cured strata again for about 2 to 3 m. It is necessary to construct the strata with the height of, and wait for these strata to be completely cured, and then again dismantle the upper brace and completely cure the strata of 2-3m.

Therefore, the above-described conventional temporary earthquake construction method does not cure one layer at a time due to the limited up and down intervals of the limited brace, and it is repeatedly applied only for about 2 to 3 m, so it is spaced at an interval of 2 to 3 m by the interval of such braces. Since the construction joints occur continuously, many construction joints are causing a lot of construction problems such as structural weakness and waterproofness of the building, which is a direct cause of air delay.

If you want to avoid such a hassle, that is, if you want to install one layer at a time, the upper and lower intervals of the above-mentioned braces should be secured about 5-6m, so the size of the thumb pile is significantly larger, thereby increasing the size of the thumb. The pile is increasing the stress sustained from the earth pressure, but this construction method has to form a large diameter for drilling the thumb piles, which is also a very uneconomical construction due to the increase in construction costs.

Therefore, while reducing the number of steps of the construction joint as described above as an optimal alternative to secure a smooth operating space, such as shortening the air and material consumption, drilling equipment, etc. The task to be broadened is derived.

As a conventional method for achieving such a problem, by using a band member having a horizontal aspect ratio of 600: 300 or 700: 300, 800: 300, 900: 300 in the band member installed horizontally on the vertically piled thumb pile, The earth pressure bearing force on the more effective thumb piles of the large cross section band member makes it possible to form a wider gap of the brace.

However, in the case of using the large cross-section banding material as described above, the problems of buckling and conduction of the banding material are caused by the pressing force of the brace that acts as a cross pressing force from the side.

That is, in the case of using the cross section belt member having the aspect ratio as described above, when the pressing force from the brace becomes strong or the inclined pressing force acts, the holding force is weakened on the supporting surface with the thumb pile. Will be buckled or inverted causing a serious problem.

Therefore, in the past, the use of the large cross-section banding material as described above can be expected to be very effective, due to the risk of buckling and conduction of the large cross-section banding material is unable to use the large cross-section banding material.

The present invention was devised to eliminate the problems as described above, and forms a band member mounted horizontally on the thumb pile as a large section band member, and one wing portion of the band member has a protruding reinforcement plate and a reinforcing rod. By forming a plurality of reinforcing bar at a predetermined interval, the reinforcing plate and the reinforcing bar to have the most effective support by adjusting the number and adjustment of the interval, the selective adjustment of the direction according to the strength of the earth pressure according to the condition of the soil,

Reinforcement plate and reinforcing rod that enables the support of thumb pile and strip member to be increased even when using large section belt member, it is safer to widen the span of the bracket because the belt member is not buckled or conducted even if the pressure of the brace is increased. It is possible to drastically shorten the air by reducing the number of steps of construction joints, while reducing the cost of construction by increasing the use of materials and widening the working radius of excavation equipment and construction equipment. It is an object of the present invention to provide a large cross-section belt mounting material having a reinforcement point for buckling and fall prevention is possible construction.

Hereinafter, preferred embodiments of the present invention will be described.

Figure 2 is an embodiment of the construction of the temporary earthquake construction by the strip material having a point reinforcement according to the present invention, Figure 3 is an overall perspective view of the strip material having a point reinforcement according to the present invention.

First, looking at the configuration of the large cross section strip material according to the present invention,

In the well-known strip | belt-shaped material 10 by which the fastening plate 2 which has several fastening holes 1 and 1 'is joined to both ends,

The strip member 10 is constituted of a large cross-section strip member in the form of an H-pile having a cross-sectional aspect ratio of at least 2: 1 or more and having flanges 11 (11 ') and connecting portions 12 on both sides. On one side flange 11 of the jangjae 10 is formed a reinforcement plate 21 of a certain interval and the point reinforcement table (20, 20 ') of the reinforcing table 22 formed on the reinforcing plate 21,

The reinforcing plate 21 is formed to protrude on the side circumferential surface to form the same surface as the flange 11, the reinforcing rod 22 is connected to the upper surface of the reinforcing plate 21 and the connecting portion 12 at the same time. It is made up of triangular shapes.

Here, the point reinforcing bar 20, 20 'as described above can be set in various numbers and directions in consideration of the strength of the earth pressure or the size of the soil or construction site,

A plurality of point reinforcing bars 20 and 20 'are formed symmetrically in the longitudinal direction on both sides of the flange 11 of the strip member 10 so that they can be used in the field where strong earth pressure is applied.

A plurality of point reinforcing bar 20, 20 'is formed in a zigzag shape along the longitudinal direction on both sides of the flange 11 of the strip member 10, so that it can be used in the field where a relatively weak earth pressure is applied.

In addition, since the inclined brace is used in the site having a low excavation depth, at this time, by forming a plurality of point reinforcing bars 20, 20 'only at regular intervals on the upper main surface of the flange 11, the point reinforcing bars 20, 20 ') Is prevented from buckling or overturning the strip material (10).

As for the clogging method using the large cross section belt material mentioned above,

After placing the thumb pile 100 (100 ') at a predetermined interval to the destination panel to be excavated, and carrying out an excavation work to the inside of the poured thumb pile 100 (100'), the thumb pile exposed to the excavation surface Mount the strip member 10 having the point reinforcing bar 20, 20 'to the flange 101 of the (100) (100'),

The point reinforcing bar 20, 20 'is a reinforcing plate 21 protruding in the same plane as the flange 11 of the band member 10, and a reinforcing table connecting the reinforcing plate 21 and the band member 10 to each other It consists of 22, the point reinforcing bar 20, 20 'is formed to match the exposed surface of the thumb pile 100, 100',

The reinforcement 110, the end of which is coupled to the inner surface of the band member 10, the end of the reinforcement 110 and the point reinforcement 20 (20 '20) and the thumb pile 100 (100 ') What is necessary is to install in a straight line of each other.

It will be described in more detail the operation and construction process for the large cross section strip member having a point reinforcing bar for the present invention buckling and fall prevention by the configuration as described above, and the temporary construction method using the same.

Looking at the schematic construction process for the construction of the temporary earthquake, the boundary line is first divided into the desired ground, and then the thumb piles 100 and 100 'are placed on the boundary line at regular intervals.

When the thumb pile 100 (100 ') is completely poured, the destination board is excavated. When a certain excavation depth is formed in the excavation process as described above, earth pressure is applied from the excavation side wall, so that the thumb pile After mounting the transverse strips 10 on all sides of the exposed surface of the (100) (100 '), and fastening the both ends of the braces 110 to connect the strips 10, which are located to correspond to each other, respectively, By the support 110, the temporary soil wall is to be supported from the earth pressure as a whole.

In this way, when the excavation of the predetermined depth and the installation of the brace is completed, the excavation work is performed again, and when the excavation depth is formed to some extent, the belt member 10 and the brace 110 are installed again to be supported by earth pressure. will be.

At this time, the bracing 110 is advantageous as the upper, lower and horizontal intervals are wider, and when the upper and lower intervals are wide, it serves to reduce the number of steps due to construction joints, and when the left and right intervals are wide, Of course, the activity radius of the various excavation and construction equipment is widened, and the construction becomes easier.

Therefore, in the present invention, by using the large cross-section belt member 10 so as to widen the upper and lower, horizontal intervals of the above-mentioned support beam 110, the above-mentioned support 110 from the sufficient support force of the large cross-section belt member 10. The effect of widening the interval is obtained.

In particular, since the aspect ratio of the large cross-section stripe 10 as described above is very biased, so there is a risk of buckling and falling accordingly, in the present invention, the risk of buckling and falling of the large cross-section stripe 10 described above. By forming a plurality of point reinforcing bar 20, 20 'continuously in various forms in accordance with the earth pressure on the flange of the band member 10 to remove the, even if using the large cross-section band member 10 as described above Is not buckled or turned over.

Here, the large cross-section banding material 10 means that the width ratio of the flanges 11 and 11 'and the length ratio of the connecting portion 12 are at least 300: 600 or 300: 700, 300: 800, and 300: 900. As the most commonly used large cross-section banding material, a banding material in the form of an H-pile having an aspect ratio of 300: 800 is common.

Such a large cross section strip material 10 of the present invention forms a plurality of point reinforcing bars 20, 20 ′ on the flange 11 that abuts the exposed surface of the thumb pile 100, 100 ′ which is placed at a construction site. By doing so, even if the rotational pressing force by the stiffening beam 110 is applied to the large cross section strip material 10 by the point reinforcing bar (20, 20 ') is to prevent the strip material from buckling or falling.

At this time, the reinforcing bar 20, 20 'is connected to the reinforcing plate 21 and the reinforcing plate 21 and the connecting portion of the band member 10 formed to protrude parallel to the same plane as the flange (11). As the welded reinforcing table 22, the reinforcing plate 21 protruded as described above is directly supported on the exposed surface of the thumb pile 100 (100 ') to provide a sufficient support force, so that the large cross section band member ( 10) is not buckled and not conducted.

In particular, the reinforcing bar 22 is to increase the holding force of the reinforcing plate 21 in order to prevent the reinforcing plate 21 is bent or deformed when side pressure occurs in the extended reinforcing plate 21. .

In addition, the point reinforcement 20 (20 '20) is that it is possible to implement a variety of forms according to the earth pressure situation or geological or excavation depth of the construction site,

At the site where excessive earth pressure is applied by the soft soil, the point reinforcing bar 20, 20 'is densely formed on both sides of the flange 11 of the strip member 10 as shown in FIG. To be formed, but the densely formed point reinforcement (20, 20 ') as described above is in direct contact with the band member 10 and the earth plate (not shown in the drawing), so that a large cross section band member ( 10) even if a strong earth pressure is generated, the deformation of the strip member 10 does not occur, and even when using the large cross section band member 10 as described above by the point reinforcing bar 20, 20 ' The cotton strip 10 is not buckled or conducted over the more secure construction is made.

In addition, in the site where the earth pressure slightly less than the above earth pressure is applied to the spot reinforcing bar 20, 20 'by forming the same as the interval of the thumb pile 100, 100', thumb pile 100 (100) ') And branch reinforcement 20 (20') and the reinforcement 110 may be located in the same line.

On the contrary, when the earth pressure acting as a temporary rock wall such as a rock layer is relatively small, the point reinforcing bars 20 and 20 'are zigzag on both sides of the flange 11 of the strip member 10 as shown in FIG. 4B. By forming and constructing the shape, the zigzag-shaped point reinforcing bar 20, 20 'alone is enough to prevent the buckling and falling of the belt bar 10.

In addition, when the excavation depth is low, as shown in Figure 4c, the support 110 is not mounted in a horizontal form, but is inclined along the excavation bottom surface thereof is connected to the band member 10. In the case of such a temporary cladding wall, since the strip member 10 is buckled and conducted only in the upward direction, the above-described flange 11 of the strip member 10 is described above at the site of this type. What is necessary is just to form the point reinforcement stand 20, 20 'in sufficient quantity.

The large cross section strip member having the point reinforcing bar for buckling and fall prevention of the present invention as described above has the pressure of the reinforcement by the reinforcing plate and the reinforcing table which increase the bearing capacity of the thumb pile and the strip member even when the large section strip member is used. Even if this increases, the cross section belt member is not buckled or overturned, so it is possible to securely widen the space of the brace, thereby reducing the number of steps of the construction joint, and significantly reducing the air, while reducing the use of materials and reducing the construction cost. Since the working radius of the excavation equipment and construction equipment is widened, it is possible to facilitate the excavation work without interference with the structure.

1 is an embodiment of the construction of the conventional banding material and brace according to the temporary construction method

Figure 2 is an embodiment of the construction of a temporary earthquake construction by the band member having a point reinforcement according to the present invention

Figure 3 is a full perspective view of the strip member having a point reinforcement according to the present invention

Figures 4a to 4c is a simplified view showing the direction and the number of point reinforcement formed on the strip member according to the earth pressure and soil quality,

Figure 4a is the application of the point reinforcement when the strong earth pressure generated by the soft ground

Figure 4b is the application of the point reinforcement when the weak earth pressure generated by the rock bed

Figure 4c is the application of the point reinforcement in the case of low buckling brace when digging

Explanation of symbols on main parts of drawing

1,1 ': Fastening hole 2: Fastening plate

10: strip material 11,11 ': flange

12: connection part

20,20 ': Reinforcement point 21: Reinforcement plate

22: reinforcement

100,100 ': Thumb pile 101: Flange

110: brace

Claims (4)

In the well-known strip | belt-shaped material 10 by which the fastening plate 2 which has several fastening holes 1 and 1 'is joined to both ends, The strip member 10 is constituted of a large cross-section strip member in the form of an H-pile having a cross-sectional aspect ratio of at least 2: 1 or more and having flanges 11 (11 ') and connecting portions 12 on both sides. On one side flange 11 of the cladding 10 is formed a plurality of point reinforcement table 20, 20 'consisting of a reinforcement plate 21 and a reinforcement table 22 formed on the reinforcement plate 21 of a predetermined interval, The reinforcing plate 21 is formed to protrude on the side circumferential surface to form the same surface as the flange 11, the reinforcing rod 22 is connected to the upper surface of the reinforcing plate 21 and the connection portion 12 at the same time A large cross-section banding member having a point reinforcement for buckling and falling prevention, characterized in that consisting of a triangular shape. The method of claim 1, Point reinforcing bar 20, 20 'having a point reinforcing bar for buckling and fall prevention, characterized in that formed in the symmetrical plurality in the longitudinal direction on both sides of the flange (11) of the strip member 10 Large cross section stripe. The method of claim 1, Point reinforcing bar 20, 20 'having a point reinforcing bar for buckling and fall prevention, characterized in that formed in a plurality of zigzag form along the longitudinal direction on both sides of the flange 11 of the strip member 10 Large cross section stripe. The method of claim 1, A large cross section strip having a point reinforcement for buckling and fall prevention, characterized in that formed by forming a plurality of point reinforcement (20) (20 ') at a predetermined interval only on the upper main surface of the flange (11).