KR102317475B1 - Waterproof retaining wall using hot rolled plate - Google Patents

Abstract

The present invention relates to an earth retaining wall, which is composed of a wall body integrated with a plurality of H-piles (10) and a hot rolled steel sheet (20) which is engaged with and supported by the H-piles, so as to block spill of backward earth pressure and underground water. A flange of the H-pile (10) and a lateral end unit of the hot rolled steel sheet are closely engaged to secure supporting power and stability. According to the present invention, the earth retaining wall has a high-degree of waterproofing, secures waterproofing at a bottom part of a single wall body composed of the hot rolled steel sheet (20), rigidly couples the H-pile (10), which is a post, and the hot rolled steel sheet with each other, and therefore, significantly improves waterproofing and structural stability of the earth retaining wall.

Description

Water-repellent earth wall using hot-rolled steel sheet {WATERPROOF RETAINING WALL USING HOT ROLLED PLATE}

The present invention relates to an earth wall (土留壁), and a wall integrated with a plurality of H piles (10) and a hot-rolled steel plate (20) coupled to and supported by the H piles (10) is composed of a back earth pressure and It resists the outflow of groundwater, and the flange of the H pile 10 and the side end of the hot-rolled steel sheet 20 are closely coupled to secure support and stability.

The earth wall is a wall structure that resists the back earth pressure by being built in an underground structure or a cut-off for foundation construction, a temple, a fill slope, a vertical shaft, and the like.

1 illustrates a typical earth wall composed of thumb piles 97, earth plates 98 and bands 99, etc., and between a plurality of thumb piles 97 whose lower ends are embedded in the ground, consisting of H-beams, etc., earth plates ( 98) is inserted and laminated, and a wale 99 is horizontally attached to the front surface of the thumb stake 97 to reinforce the earth wall.

In addition, although not shown in the drawings, various reinforcing means such as anchors buried in the ground on the back of the earth wall or braces connected to the wale 99 may be added.

The problem with the conventional earth wall as shown in FIG. 1 is that the wall is composed of a stack of multiple earth plates 98, so that it cannot block water leakage in the ground behind it, and even in the completed state of the earth wall, the substantial amount of the earth wall wall except for the thumb pile 97 is It can be said that penetration into the ground is not possible, and the bearing capacity of the earth plate 98 itself, which is a laminate, cannot be expected as a wall.

That is, in the structure of the earth wall, only the thumb pile 97 penetrates the ground sufficiently and the earth plate 98 stack, which occupies most of the surface area of the wall, is in fact a structure that is simply mounted on the ground at the lower end of the earth wall. is virtually impossible to expect, and in particular, it is inevitably vulnerable to leakage through the ground at the lower end of the earth plate 98 stack.

Therefore, when the water table is formed in the ground behind the earth wall, or when leakage occurs in the ground behind, such as riverside excavation work or rain, in the conventional earth plate 98 stacked earth wall, between the earth plates 98 as well as between the earth plates 98 Sudden leakage through the joint between the and the thumb pile 97 was caused, resulting in the loss of soil particles in the background and eventually loss of bearing capacity, causing a serious problem.

In particular, in a wall laminated with earth plates 98 occupying most sections of the earth wall wall in plan view, when leakage occurs through the ground at the lower end of the wall or the surface of the wall, the bearing capacity of the ground below the earth wall is rapidly lost, and the thumb pile (97) The bearing capacity of the rooting part is inevitably damaged, which can cause a situation in which the stability of the entire earth wall is seriously threatened.

Accordingly, a process such as inserting a waterproofing material or applying or injecting a waterproofing agent between the stacked earth plates 98 is performed, and various additional reinforcement and waterproofing means such as a tarpaulin are installed, but a complicated process is added and a huge amount of material Not only was it required, but the effect was extremely weak.

The present invention has been devised in view of the above-described problems, in which a plurality of H piles 10 are planar and the web penetrates the ground parallel to the earth pressure action direction, and a wall is configured between the H piles 10 to resist the back earth pressure. In the earth wall to do, the hot-rolled steel sheet 20 is coupled behind the exposed flange of the H pile 10 to form a wall, and the side end of the hot-rolled steel sheet 20 is the surface of the rear side of the exposed flange of the H pile 10 . An attachment portion 15 attached to the rear surface of the exposed flange of the H file 10 and a spaced portion spaced apart from the attachment portion 15 by a distance consistent with the thickness of the hot-rolled steel sheet 20 ( 16) and a coupling plate 13 composed of an overlapping portion 17 in which the attachment portion 15 and the spaced portion 16 collide with each other is constituted, and the spaced portion 16 of the coupling plate 13 and the H It is an order-type earth wall using a hot-rolled steel sheet, characterized in that the side end of the hot-rolled steel sheet (20) is coupled between the exposed side flanges of the pile (10).

In addition, the present invention is attached to the surface of the flange of the exposed side of the H file 10, a fixing plate 50 having a plurality of guide shafts 53 protruding vertically arranged, an inclined surface 61 is formed on the side surface, and the center A lifting plate 60 having a vertical long hole 63 formed thereon is installed on the surface of the fixing plate 50, and the long hole 63 is coupled to the guide shaft 53 so that the lifting plate 60 can be lifted in the vertical direction, and hot-rolled. A fixing plate 70 is attached to the surface of the steel plate 20 , and a horizontal reciprocating rod 71 is bonded to the fixing plate 70 , and the other end of the fixing plate 70 of the reciprocating rod 71 is an inclined surface of the lifting plate 60 . It is an order-type earth wall using a hot-rolled steel sheet, characterized in that the reciprocating rod 71 is horizontally moved in the axial direction and the lifting plate 60 is raised and lowered in contact with the hot-rolled steel sheet 20 as horizontal displacement occurs in the hot-rolled steel sheet 20.

Through the present invention, a single wall composed of a hot-rolled steel sheet 20 can be configured on an earth wall, and a close bond between a single-walled hot-rolled steel sheet 20 and a pole H-pillar 10 is possible, as well as a single-walled hot-rolled steel sheet. Significant ground penetration of the lower part of the steel plate 20 is possible.

Accordingly, it is possible to provide a high degree of water resistance to the earth wall wall itself, and it is possible to secure water resistance at the lower end of a single wall composed of the hot-rolled steel sheet 20, as well as a strong mutual relationship between the posts and the single wall of the hot-rolled steel sheet 20. Since binding is possible, the water resistance and structural stability of the earth wall can be remarkably improved.

In particular, as the earth wall behaves as a single structure, workability can be secured in installing various reinforcing structures such as the wale 99, and the reinforcing effect of the reinforcing structure is easily spread throughout the wall, resulting in high stability and bearing capacity. This can be manifested.

In addition, the earth plate 98 bonding and lamination process, which can only be repeated in the construction process of the prior art, is omitted, and the wall can be constructed only by one-time bonding of a single hot-rolled steel sheet 20, so the convenience of earth wall construction can be improved. In addition, it is possible to shorten the construction period and reduce the construction cost.

1 is a structure diagram of a conventional earth wall;
2 is a structural diagram of the earth wall of the present invention;
3 is a structural diagram of a hot-rolled steel sheet bonding according to the present invention;
4 is a plan cross-sectional view of the present invention;
5 is an excerpted perspective view of the H file of the present invention;
Figure 6 is a partially cut perspective view of a modified embodiment of the present invention H-file
7 is a structural diagram of a hot-rolled steel sheet displacement measurement type embodiment of the present invention;
Fig. 8 is an excerpted perspective view of the measurement means of the embodiment of Fig. 7;
Fig. 9 is an explanatory diagram of the measurement method of the embodiment of Fig. 7;
Figure 10 is an excerpted perspective view of the measuring means of the embodiment of Figure 7 to which the elastic ring is applied;

The detailed configuration and execution process of the present invention will be described with reference to the accompanying drawings.

First, Figure 2 shows the structure and main configuration of the earth wall to which the present invention is applied. It is composed of a hot-rolled steel sheet 20 coupled to and installed.

That is, in the present invention, as in FIGS. 2 and 3, a plurality of H piles 10 composed of a web and a flange respectively joined to both ends of the web are penetrated into the ground as a post, and the web is flat It penetrates into the ground parallel to the direction of the earth pressure action, and a wall is constructed between the plurality of H piles 10 to resist the back earth pressure. It can be said that the chain hot-rolled steel sheet 20 is constructed by being coupled between adjacent H piles 10, and a single wall of the hot-rolled steel sheet 20 is formed between a plurality of H piles 10 arranged in a linear shape on a plane. By connecting continuously, it resists the back earth pressure.

In the present invention H pile 10 penetrating into the ground as a pole, the flanges respectively joined to both ends of the web constituting the H pile 10 are perpendicular to the direction of action of earth pressure in plan view, as shown in FIG. As shown in the drawing, one flange of the pair of flanges has a structure in which the surface is exposed outward in front of the earth wall, and the other flange is buried in the ground behind.

2 to 4, the hot-rolled steel sheet 20 is combined behind the exposed flange of the H pile 10 to form a single wall, and the side end of the hot-rolled steel sheet 20 is the H pile 10. By being in close contact with the surface of the rear side of the exposed flange, the earth pressure acting on the back of the hot-rolled steel sheet 20 is transmitted to the exposed-side flange of the H-pillar 10 through both ends of the hot-rolled steel sheet 20, and as shown in FIG. As the lower end of the steel sheet 20 itself also penetrates the ground, the hot-rolled steel sheet 20 constituting a single wall in the present invention has a rigid structure in which both side ends and lower ends are fixed.

Therefore, the entire surface of the hot-rolled steel sheet 20 composed of a single body exhibits a high degree of water-repellent properties, and, as in the enlarged oval in FIG. It is possible to achieve a high degree of water protection on the side end of the hot-rolled steel sheet 20 only by constructing a simple water-repellent material 91 for Daehan. can

The coupling between the H file 10 and the hot-rolled steel sheet 20 of the present invention is performed by a method such as type, press fit, or insertion into an excavation hole. (10) is first penetrated, and then the hot-rolled steel sheet 20 is in close contact behind the exposed flange of the earth wall front opening of the H-pillar 10, and the lower end of the hot-rolled steel sheet 20 is penetrated into the ground. At this time, in order to induce a close and strong bond between the hot-rolled steel sheet 20 and the H-pillar 10 and stable intrusion of the hot-rolled steel sheet 20 at the correct position, as in FIGS. 4 to 6 , A coupling plate 13 is installed on the rear surface of the exposed flange distal end of the H pile 10 .

The coupling plate 13 of the present invention is a plate body configured by bending a target plate body or joining a plurality of target plate bodies, and basically, as in FIGS. 4 and 5, the exposed side flange of the H file 10 The attachment part 15 attached to the rear surface, the spacer 16 spaced apart from the attachment part 15 by a distance equal to the thickness of the hot-rolled steel sheet 20, and these attachment parts 15 and the spaced part (16) is composed of an overlapping portion (17) overlapping each other.

In addition, between the spaced portion 16 of the coupling plate 13 and the exposed flange of the H file 10, the side end of the hot-rolled steel sheet 20 is coupled, as in the enlarged oval in FIG. 4 , thereby While the surface and the back surface of the side end of the hot-rolled steel sheet 20 are in close contact with the rear surface of the flange and the inner surface of the spaced portion 16 of the coupling plate 13, respectively, a stable coupling is induced and at the same time, the H file 10 and the hot-rolled steel sheet are induced. A strong bond between the steel plates 20 can be achieved.

On the other hand, as in the enlarged part in the oval of FIG. 4 , a clearance is provided between the overlapping portion 17 of the coupling plate 13 and the end of the hot-rolled steel plate 20 , so that the H of the hot-rolled steel plate 20 is It is desirable to alleviate the bonding resistance in the process of bonding the pile 10 and the bonding plate 13 and to accommodate the allowable deformation according to the thermal deformation or load of the hot-rolled steel sheet 20 .

6 is the first entry into the lower end of the hot-rolled steel sheet 20 between the upper end of the exposed flange of the H file 10 and the upper end of the coupling plate 13 by forming inclined portions in various directions at the upper end of the bonding plate 13 of the present invention. This is to ensure the convenience of the operation in Sikkim, and to accurately and stably guide the position and posture in the process of entering or inserting the hot-rolled steel sheet 20 .

In this modified embodiment of the H-file 10 of FIG. 6, the above-mentioned inclined portion is cut to the outside over the entire upper end of the overlapping portion 17 and the upper portion of the spacer 16, as illustrated in the drawing. It may be composed of an inclined cut portion 18 and a widened portion 19 in which the inner edge of the upper end of the inclined cut portion 18 is cut to enlarge the width of the opening.

As described above, in the earth wall to which the present invention is applied, the wall is composed of a hot-rolled steel sheet 20 and a single plate constitutes a single wall. The stability can be accurately and easily understood. The displacement measurement of the hot-rolled steel sheet 20 can be performed through precision measuring equipment or surveying equipment, but in this case, the entire hot-rolled steel sheet 20 linearly arranged over the entire earth wall section. Since it is necessary to perform individual measurements on the instrument one by one, it takes considerable time and manpower, and there is a problem that expensive equipment must be mobilized, and there is a limit in which constant measurement is fundamentally impossible.

Accordingly, in the present invention, even with a simple configuration, it is possible to immediately check the displacement of the hot-rolled steel sheet 20 with the naked eye without separate measuring equipment, and the specific configuration is illustrated in FIGS. have.

First, Figure 7 shows the real-time visual measurement means of the present invention, such as the fixing plate 50, the lifting plate 60, the fixing plate 70, and the reciprocating rod 71, showing the H-pillar 10 and the hot-rolled steel plate ( 20), as shown, the measuring means of the present invention can be installed at any position on the surface of the exposed side flange of the H-pillar 10 and the hot-rolled steel sheet 20, and the rear When the hot-rolled steel sheet 20 is elongated and deformed in a plane by the earth pressure or horizontal displacement of the hot-rolled steel sheet 20 occurs due to the above-described gap and back earth pressure, the lifting plate 60 installed on the fixing plate 50 moves and immediately It can be checked visually.

FIG. 8 shows the basic configuration by extracting the measuring means of the present invention, and as shown in the same figure and FIG. 7 , the measuring means of the present invention is a fixing plate attached to the exposed flange of the H file 10 . (50), a lifting plate 60 that is installed in close contact with the fixing plate 50 to enable lifting, a fixed plate 70 attached to the surface of the hot-rolled steel plate 20, and a lifting plate 60 attached to the fixed plate 70 ) is composed of a reciprocating rod 71 and the like for driving.

That is, as in FIGS. 7 and 8 , a fixing plate 50 having a plurality of guide shafts 53 protrudingly arranged vertically is attached to the exposed flange surface of the H file 10 , and the side surface as in FIG. 8 . A lifting plate 60 having an inclined surface 61 and a vertical long hole 63 formed in the center is installed on the surface of the fixing plate 50, and the long hole 63 of the lifting plate 60 is formed in the fixing plate 50 It is coupled to the guide shaft 53 of the elevating plate 60 is installed so that it can be lifted freely in the vertical direction, a fixed plate 70 is attached to the surface of the hot-rolled steel plate 20, and a horizontal reciprocating rod 71 is attached to the fixed plate 70. By this bonding, the other end of the fixing plate 70 of the reciprocating rod 71 is in contact with the inclined surface 61 of the lifting plate 60, and as a horizontal displacement occurs in the hot-rolled steel sheet 20, the reciprocating rod 71 is formed. It is horizontally moved in the axial direction, and accordingly the lifting plate 60 is raised and lowered.

As shown in FIG. 8, the plurality of guide shafts 53 protruding forward of the fixing plate 50 are formed so that their diameter matches the width of the long hole 63 of the lifting plate 60, so that the lifting plate 60 is stable and Inducing precise vertical lifting and lowering, a guide portion 57 having an internal shape consistent with the reciprocating rod 71 is installed at the side end of the fixing plate 50 to suppress the separation of the reciprocating rod 71 and at the same time the reciprocating rod A stable axial horizontal movement of (71) is induced.

In addition, in the embodiment illustrated in FIGS. 8 and 9 , the fixing plate 50 and the lifting plate 60 are formed to be symmetrical about the center line of the long hole 63 of the lifting plate 60 , and the lifting plate 60 ) The inclined surfaces 61 are symmetrically formed on both sides of the lower portion, and the guide portions 57 of the fixing plate 50 to which the reciprocating rod 71 is coupled are also installed on both sides symmetrically on both sides, which is the reciprocating rod 71 . This is to allow the same measurement means to be applied to both the H-pillar 10, the left hot-rolled steel sheet 20 and the right hot-rolled steel sheet 20 by freely changing the coupling direction.

9 is to explain the principle of operation of the measuring means of the present invention, as shown in the same figure, when the hot-rolled steel sheet 20 is horizontally moved in the direction in which the hot-rolled steel sheet 20 is separated from the H-pillar 10 due to earth pressure, etc., the hot-rolled steel sheet 20 ) The fixed plate 70 attached to the surface and the reciprocating rod 71 bonded to the fixed plate 70 move together in the axial direction of the reciprocating rod 71 , and then the reciprocating rod that supported the self-weight of the lifting plate 60 . As the end of the 71 is spaced apart from the lifting plate 60 , the lifting plate 60 descends, so that the horizontal displacement of the hot-rolled steel plate 20 can be immediately confirmed.

In particular, as shown in FIG. 9 , assuming a steep slope in which the horizontal-to-vertical ratio of the inclined surface 61 on the side of the elevator 60 far exceeds 1, that is, a right-angled triangle with the instructor surface as the hypotenuse, the vertical side (v ) significantly exceeds the horizontal side (h), so that the vertical descending distance (L) of the lifting plate (60) caused by the horizontal axial movement distance (d) of the reciprocating rod (71) is dramatically reduced. It can be enlarged, whereby the minute displacement of the hot-rolled steel sheet 20 can be immediately checked with the naked eye without a precision measuring instrument.

Meanwhile, in FIG. 10 , the descending movement of the lifting plate 60 does not depend entirely on the self-weight of the lifting plate 60 , but by allowing the contractile elasticity of the elastic ring to always act on the lifting plate 60 , the lifting plate It is designed to enable a more agile and stable movement of the lifting plate 60, so that even in a situation where smooth activity between the lifting plate 60 and the fixing plate 50 is difficult due to the deposition or corrosion of foreign substances, the lifting plate 60 can be moved smoothly and Precise operation is possible.

In such a resilient driving type measuring means, as shown in FIG. 10 , a support shaft 58 is protruded from the center of the fixing plate 50 , so that the upper end of the support shaft 58 forms a long hole 63 of the lifting plate 60 . A pair of support pins 68 are protrudingly formed on the upper end of the lifting plate 60 , and these support pins 68 are configured to be symmetrical with respect to the center line of the long hole 63 .

In addition, a resilient ring 80 made of elastic material such as rubber or synthetic resin is coupled to the support shaft 58 and the pair of support pins 68. 80) surrounds these support shafts 58 and a pair of support pins 68, so that the contractile elasticity of the resilient ring 80 always acts, thereby a strong force for lowering the elevating plate 60 as shown in FIG. This always acts, so that agile and stable driving of the lifting plate 60 is possible.

10 : H file
13: coupling plate
15: attachment part
16: separation part
17: overlapping part
18: inclined cut part
19: widening part
20: hot rolled steel sheet
50: fixing plate
53: induction shaft
57: induction part
58: support shaft
60: lift plate
61: slope
63: long hole
68: support pin
70: fixed plate
71: reciprocating rod
80: elastic ring
91: index material
97: thumb stick
98: earth plate
99: belt

Claims (2)

A plurality of H piles 10 are planar webs penetrated into the ground parallel to the earth pressure action direction, and a wall is constructed between the H piles 10 to resist the rear earth pressure, and the exposed side flange of the H pile 10 At the rear, the hot-rolled steel sheet 20 is coupled to form a wall, but the side end of the hot-rolled steel sheet 20 is in close contact with the surface of the rear side of the exposed flange of the H pile 10, and the exposed side flange of the H file 10 is behind the exposed side flange The attachment part 15 attached to the side surface, the spaced part 16 spaced apart from the attachment part 15 by a distance equal to the thickness of the hot-rolled steel sheet 20, and these attachment parts 15 and the spaced part ( 16) A coupling plate 13 composed of an overlapping portion 17 that is in contact with each other is configured, and a hot-rolled steel sheet 20 is formed between the spaced portion 16 of the coupling plate 13 and the exposed flange of the H pile 10. ) In the order-type earth wall using a hot-rolled steel sheet to which the side end is coupled,
A fixing plate 50 having a plurality of vertically arranged guide shafts 53 protruding is attached to the exposed flange surface of the H file 10;
A lifting plate 60 having an inclined surface 61 formed on the side and a vertical long hole 63 formed in the center is installed on the surface of the fixing plate 50, and the long hole 63 is coupled to the guide shaft 53 and the lifting plate ( 60) is vertically movable;
A fixing plate 70 is attached to the surface of the hot-rolled steel sheet 20, a horizontal reciprocating rod 71 is bonded to the fixing plate 70, and the other end of the fixing plate 70 of the reciprocating rod 71 is the elevating plate 60. An order-type earth wall using a hot-rolled steel sheet, characterized in that in contact with the inclined surface (61), the reciprocating rod (71) is horizontally moved in the axial direction and the lifting plate (60) is raised and lowered as a horizontal displacement occurs in the hot-rolled steel sheet (20). delete

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