KR20220008194A - Universal joint type water flow guiding assembly capable of adjusting to uneven ground - Google Patents

Abstract

The present invention provides a waterway turning assembly for a site comprising: a plurality of water barrier plates having a recess formed on one side thereof, a protruding unit formed on the opposite side thereof, a first fastening hole penetrating an upper and a lower portion of the recess, and a second fastening hole penetrating the protruding unit; a plurality of waterproof cloths coming in contact with the plurality of water barrier plates; and a fastening bar fixed on the ground through the first and second fastening holes. The second fastening hole has an elongated cross section. When the plurality of water barrier plates are fixed on the ground by the fastening bar, the protruding unit of one water barrier plate is at least partially accommodated in the recess of a neighboring water barrier plate. The water barrier plates can be laterally separated or rotated by the elongated cross section. Therefore, the bottom of each water barrier plate can be adjusted to match the gradient of the ground.

Description

UNIVERSAL JOINT TYPE WATER FLOW GUIDING ASSEMBLY CAPABLE OF ADJUSTING TO UNEVEN GROUND

The present invention relates to an irrigation system for countermeasures against flooding and diverting water at a construction site, and more particularly, to an adjustable water channel diverting structure for irregular ground.

Shielding structures are known for preventing water from overflowing and flowing into a building due to a rainy season or a disaster. These barrier structures are generally intended to prepare for flood events occurring in the city center, are installed on a flat floor such as concrete or asphalt, and are generally installed in a relatively narrow range such as a building entrance.

On the other hand, when the initial construction site, where excavation and pile driving is carried out, is flooded, it is difficult to control external inflow water due to the characteristics of the soil floor, and it is difficult to quickly respond to internally generated groundwater. Therefore, there is a demand for a water blocking system that can be easily installed on the soil floor of the construction site and can quickly respond to the bursting groundwater or external inflow water. In addition, there has been a demand for a water circulating system that can guide the inflow to the collecting well in the construction site when the inflow of groundwater is unavoidable due to boiling or leakage of pile walls.

In these construction sites, the ground is often uneven and there is a wide area for flood protection. Therefore, it is difficult to respond to flooding such as a water barrier on a wide and irregular ground with the existing water barrier structure. Similarly, even in the case of temporarily creating a waterway on bare ground, such as in the case of draining groundwater with a catchment well, the existing barrier wall structures are not suitable.

Laid-Open Patent Publication No. 10-2020-0068420 (published on June 15, 2019) discloses an order wall structure with adjustable floor gradient that can be installed in close contact with the order wall without gaps even on an uneven floor surface. This barrier wall structure is a structure that can be adjusted only for minute curves, targeting the wall of an underground parking lot of an apartment house or large mart as its installation space.

As described above, there has been a demand for a water barrier structure for protection against flooding at a construction site, but the prior art did not provide a solution principle as in the present invention.

An object of the present invention is to provide a temporary waterproofing system that can be installed on the soil floor of a construction site.

Another object of the present invention is to provide a water blocking system that can be used on all types of on-site soil floors, such as curved floors, uneven floors, and wet or dry soil floors.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The water channel structure for a construction site according to the present invention for achieving the above object includes the following aspects and any combination thereof.

One aspect of the present invention provides a plurality of order plates - the order plate has a recess formed on one side, a protrusion formed on the opposite side, a first fastening hole passing above and below the recess, and a second fastening hole passing through the protrusion A plurality of tarpaulins in contact with the plurality of order plates, and a fastening rod fixed to the ground through the first and second fastening holes, wherein the second fastening hole has an elongated cross-section, and a plurality of orders When the plate is fixed to the ground by the fastening rod, the protrusion of one order plate is at least partially accommodated in the recess of the neighboring order plate, wherein the elongate cross-section allows the order plate to be transversely spaced or rotated, It is a water channel assembly for field use so that the lower end of each shroud can be adjusted to the slope of the ground.

In another aspect of the present invention, in addition to the above aspect, the width of the recess is formed to be greater than the width of the protrusion, and the order plate can be vertically spaced apart by a clearance due to a difference in width between the recess and the protrusion, so that each It is a waterway swivel assembly for field use so that the lower end of the shroud can be adjusted to match the level of the ground.

Another aspect of the present invention is, in addition to the above aspect, the width of one tarpaulin corresponds to the width of one tarpaulin, and the tarpaulin has an upper part in contact with the tarpaulin and a lower part in contact with the ground, and the tarpaulin of The lower part is connected to the upper part of the tarpaulin and is detachable along the center line, and the tarpaulin is arranged adjacent to the edge of the water plate so that the upper part of the tarpaulin covers the neighboring water plates in half. to be.

Another aspect of the present invention is, in addition to the above aspects, an extended part is provided in the lower part of the tarpaulin, and the expanded part is formed on either one of the central part of the lower part of the tarpaulin and the left and right edges of the lower part of the tarpaulin - direction of the waterway It is formed on the left edge if it is the left side, and on the right edge if it is the right side -, it is a waterway diverting assembly for the field, which is made to lie along the direction of the waterway.

Another aspect of the present invention is, in addition to the above aspects, the tarpaulin is adhered to the water-repellent plate by a Velcro structure, and the Velcro structure includes a pair of Velcro lines and a rubber packing line therebetween. is an assembly.

The barrier wall system according to the present invention has a simple structure, so that field workers can easily install it and easily dismantle it.

In addition, the water barrier system according to the present invention can be installed quickly and can respond to water barriers for several tens of hours.

In addition, the barrier wall system according to the present invention is easy to clean, rust-free, and convenient to manage, such as storage, even if it is contaminated with soil, oil, debris, and the like.

In addition, the barrier wall system according to the present invention can be installed in a complex structure in a construction site, such as a floor with a slope or a step.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a view showing a shroud according to an embodiment of the present invention, (a) is a plan view, (b) is a front view, (c) is a front view of another embodiment.
2 is a diagram illustrating that the water-blocking plates are connected to each other according to an embodiment of the present invention.
3 is a view showing a state in which the shroud plates are installed on the ground having a step according to an embodiment of the present invention.
4 is a view showing a state in which the water-blocking plates are installed on a sloped ground according to an embodiment of the present invention.
5 is a cross-sectional view showing a waterway turning assembly for a construction site according to an embodiment of the present invention.
6 shows a tarpaulin according to an embodiment of the present invention, (a) is a tarpaulin used when the flow of water is in the left direction in the drawing, (b) is a tarpaulin used when the flow of water is in the right direction will be.
7 is a plan view of an assembly for field use according to an embodiment of the present invention, showing a state in which one side wall is omitted.
8 is a diagram illustrating an arrangement relationship between a water-blocking plate and a tarpaulin according to an embodiment of the present invention.
9 is a view showing a Velcro junction structure according to an embodiment of the present invention, (a) is a plan view, (b) is a rear view.
10 shows a fastening rod having a different cross-section according to a relative position with a fastening hole of an order plate according to an embodiment of the present invention.

The embodiments presented in the accompanying drawings are for a clear understanding of the present invention, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so unless necessary for an understanding of the invention, they will not be repeatedly described and well-known components will be briefly described or omitted, but It should not be construed as being excluded from the examples.

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

1 shows a shroud 10 according to an embodiment of the present invention, which has a protrusion 12 on one side and a recess 13 on the other side. The width W2 of the recess is set to be larger than the width W1 of the protrusion. A depth d1 of the protrusion may correspond to a depth d2 of the recess. Referring to Fig. 1 (a), the water blocking plate 10 has a fastening hole 11a that penetrates the protrusion 12 in the longitudinal direction and a fastening hole 11a that penetrates the upper and lower portions of the recess 13 in the longitudinal direction ( 11b) is provided. The fastening holes 11a and 11b are formed in an elongated shape as shown, and the longitudinal direction of the elongated fastening holes 11a and 11b in a state in which the fastening rods 20a and 20b (see FIG. 2 ) are inserted. An empty space may be secured accordingly. Due to this empty space, the water-blocking plates can be spaced apart or inclined in the transverse direction or at a certain angle to each other even when they are connected by a fastening rod.

The height × width × thickness of each water plate may be, for example, 600 mm × 500 mm × 50 mm, which may be changed according to the installation environment. Aluminum or stainless steel is suitable as the material of the water-blocking plate. 1(c) shows a water-blocking plate 10' according to another embodiment, and is the same as the embodiment shown in FIG. 1(b) except for a different frontal shape.

Fig. 2 shows a configuration for connecting a series of order plates 10a, 10b, 10c, wherein the protrusion of one order plate 10b is at least partially received into the recess of the neighboring order plate 10a, and the fastening hole As the heads of the fastening rods 20a are hammered through (11a, 11b, see FIG. 1), adjacent water plates are connected to each other. The portion marked with 't' at the bottom of the fastening rod 20a in FIG. 2 is a portion that is embedded in the ground, and if this portion is configured in a spiral shape, it can be more firmly fixed to the ground.

3 shows a state in which the water-blocking plates 10a and 10b according to the present invention are installed on the ground G with a step. Due to the clearance s due to the difference in width between the protrusion 12 of the water blocking plate 10b and the recess 13 of the water blocking plate 10b, the water blocking plate 10b is lower than the neighboring water blocking plate 10a, or Can be installed high. In this way, since the bottom of the shroud can be closely adhered to the level difference of the ground, it is possible to prevent a large gap or mismatch between the suffix wall and the floor to be otherwise formed.

The aforementioned clearance (s) is not limited to just allowing the protrusion 12 to be received into the recess 13, but is set to sufficiently adjust the height of the order plate according to the step (e.g., the width of the protrusion ( 1/4, 1/3, 1/2, 1 times, 1.5 times, 2 times of W1), as will be described later, it is set to a degree that allows the inclination of the water plate according to the inclination (for example, 15 degrees, 30 degrees, 45 degrees). In this case, in order to set the degree of inclination of the order plate to a desired level, it will be possible to change the shape of the order plate, the width or depth of the protrusion and the recess, and the like. Alternatively, it may be possible to configure at least a portion of the protrusion 12, for example, a portion touching the fastening rod when the water-order plate is spaced left and right, with an elastic member such as rubber so that the water-order plate can be inclined more.

4 shows a state in which the water-blocking plates 10a, 10b, and 10c according to the present invention are installed on the inclined ground G. As shown in FIG. Each of the order plates may be inclined by a certain angle (α1 or α2) according to the inclination of the ground. In this way, the swash plates of the present invention can be adjusted to fit the slope of the ground.

5 is a cross-sectional view showing a channel type order wall structure according to the present invention. The order walls 15 and 15 formed on both sides by fixing a plurality of order plates to each other and to the ground G by the fastening rod 20, and a tarpaulin 30 coupled with a coupling means 32 such as Velcro on the inside of the order wall ), and by the bottom tarpaulin 31 connecting between the two tarpaulins 30 and 30, a watertight waterway is formed, and water (H) can flow along the waterway. The floor tarpaulin 31 may be coupled to both tarpaulins 30 and 30 by a coupling means 33 . However, if the gap between the two order walls 15 and 15 is narrow or the length of the lower part of the tarpaulin 30 - 2 is long enough, it will not be necessary to use the floor tarpaulin 31 .

6 shows tarpaulins 30 and 30' according to an embodiment of the present invention. The tarpaulins 30 and 30' include upper portions 30-1 and 30-1', lower portions 30-2 and 30-2', and extended portions 30-3 and 30-3'.

The upper parts 30-1 and 30-1' are parts bonded to and coupled to the water-blocking plate 10, and have a width corresponding to the width of the water-blocking plate 10, but as will be described later, two neighboring water-blocking plates They are misaligned so as to span half between them. The lower parts 30-2 and 30-2' are parts that are laid on the ground and are separated so as to be spread apart on both sides from the center lines 35 and 35'. The extensions 30-3, 30-3' have one (30-3a, 30-3-b') on one of the left and right edges of the lower part, and one (30-3b, 30) on the centerline (35, 35'). -3a') each can be formed, and the direction of laying down is different depending on the flow direction of water. That is, if the direction of the water path is the left side of the drawing, as shown in (a), the extended part 30-3a is located at the lower left edge, and the extended parts 30-3a, 30-3b are lying on the left side of the tarpaulin ( 30) is used, and if the water path flows to the right, on the contrary, the tarpaulin 30' as shown in (b) is used. Since the tarpaulin 30 is turned over to become the tarpaulin 30', one type of tarpaulin may be used for both directions. In this case, coupling means such as Velcro should be provided on both sides of the tarpaulin.

7 is a plan view of FIG. 5 viewed from above, and one of the order walls is omitted for convenience of description.

A plurality of water-blocking plates 10a to 10d are fixed by fastening rods 20a to 20e, and the tarpaulins are coupled to the water-blocking plates by a coupling means 32 . In the drawing, the lower parts of the tarpaulin (30-2a to 30-2e) placed on the ground are shown in a plane such as a square, whereas the upper parts of the tarpaulin coupled to the swash plate by the coupling means 32 are shown in a straight line.

Each one-piece tarpaulin is arranged over two tarpaulins, and the center line 35a to 35e of the tarpaulins is at the edge of each tarpaulin 10a to 10d (in other words, the position of each fastening rod 20a to 20e). aligned (see FIG. 8). In this way, when the waterway is bent, the lower end of the tarpaulin can be spread and adhered to the ground. At this time, the extended portions 30-3a to 30-3e extending from the respective center lines 35a to 35e cover the gaping portion to prevent the tarpaulin from being overturned by the current. In the case of FIG. 7, it was assumed that the waterway flows to the left side of the drawing, and thus, tarpaulins in which the extension parts 30-3a to 30-3e lie on the left side were used. Although not shown in FIG. 7 for convenience of explanation, extension parts may extend to the left edge of the lower part of each tarpaulin to cover neighboring tarpaulins.

9 shows a coupling means 32 according to an embodiment of the present invention. In FIG. 9 (a), the tarpaulin 30c is attached to the water-order walls 10b and 10c by the coupling means 32 and 32a. The state is shown in a plan view, and (b) is a view from the back of the tarpaulin 30c with the coupling means 32 and 32a.

The coupling means 32 may be composed of two Velcro lines (32-1, 32-3) and a rubber packing line (32-2) therebetween. Since the water-tightness of the Velcro coupling part may be insufficient when the water pressure is high or the water is filled, it is possible to strengthen the watertight ability by arranging a rubber packing line between the two Velcro coupling parts. For the Velcro to connect to each other, a hook on one side of the tarpaulin and the water plate and a hook on the other side should be provided, and a rubber packing line should be provided on either side. This Velcro coupling method is suitable for quick and easy installation and demolition at the construction site. Of course, it will be possible to apply a bolting coupling for a reliable coupling, but it is inferior to the above-described Velcro method in terms of speed and convenience.

10 shows a fastening rod 20 according to an embodiment of the present invention, and the cross-section is made different along the length of the fastening rod 20 . That is, on the basis of the state in which the fastening rod 20 is hammered and embedded in the ground, as shown in the right figure, the portion corresponding to the fastening hole 11b (refer to FIG. 1 ) above and below the recess of the order plate 10 is cross-section. It is formed in this elliptical shape, and the portion corresponding to the fastening hole 11a of the protrusion (refer to FIG. 1 ) has a circular cross section.

When hammering the fastening rod 20, as shown in (a) of the left figure, the long axis of the section having an elliptical cross section is parallel to the longitudinal direction (x) of the elongated fastening hole 11 and hammering so that the fastening rod becomes the fastening hole Do not receive friction when passing the rods, but at the point in time when the fastening rods are fully embedded or do not receive a large friction force in the embedded state to some extent, so that the state of (b) in the left figure, that is, the long axis of the ellipse is the width of the fastening hole 11 Rotate the fastening rod so that it is parallel to the direction (y). The body of the fastening rod may be rotated by holding it strongly with a tool, or it may be rotated by inserting the tool into a groove (not shown) formed in the head of the fastening rod. At this time, the long axis length of the elliptical cross-sectional portion of the fastening rod is greater than or equal to the width g of the fastening hole 11 , so that the fastening hole 11b and the fastening rod 20 above and below the recess can be firmly fixed. On the other hand, the portion corresponding to the fastening hole 11a of the protrusion is formed to have a circular diameter smaller than the width g of the fastening hole, as shown in (c) of the left figure, so that the protrusion can be freely rotated or spaced apart. configurable.

By using the fastening rod configured as described above, one side of the neighboring water-blocking plate is firmly fixed while the other side is firmly fixed with a fastening rod while displaced up and down, left and right, or at a certain angle so as to be in close contact with the ground as much as possible. They can be sequentially connected one by one in a form that is as close to the ground as possible.

As mentioned above, although embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can implement the present invention in other specific forms without changing its technical spirit or essential features. You can understand that there is Therefore, it should be understood that the embodiments described above are illustrative and not restrictive.

10, 10' water plate 11, 11a, 11b fasteners
12: protrusion 13: recess
15: water barrier 20: fastening rod
30: tarpaulin 31: floor tarpaulin
30-1: upper part of tarpaulin 30-2: lower part of tarpaulin
30-3: extension 32, 33: coupling means
35: Tarpaulin Centerline G: Floor H: Water

Claims (5)

a plurality of order plates, the order plate having a recess formed on one side, a protrusion formed on the opposite side, a first fastening hole penetrating above and below the recess, and a second fastening hole passing through the protrusion;
a plurality of tarpaulins in contact with the plurality of water-repellent plates;
a fastening rod fixed to the ground through the first and second fastening holes;
including,
The second fastening hole has an elongated cross-section,
When a plurality of order plates are fixed to the ground by the fastening rods, the protrusions of one order plate are at least partially accommodated in the recesses of the neighboring order plates, wherein the order plates are laterally spaced apart or rotated by the elongate cross section. In this way, the lower end of each water plate can be adjusted to fit the slope of the ground.
Field diverting assembly. The method of claim 1,
The width of the recess is formed to be greater than the width of the protrusion,
The order plate can be vertically spaced apart by the clearance due to the difference in width between the recess and the protrusion, so that the lower end of each order plate can be adjusted to match the level of the ground.
Field diverting assembly. The method of claim 1,
The width of one tarpaulin corresponds to the width of one tarpaulin,
The tarpaulin has an upper portion in contact with the tarpaulin and a lower portion in contact with the ground, and the lower portion of the tarpaulin is detachable along a center line connected to the upper portion of the tarpaulin,
The tarpaulin has a center line arranged adjacent to the edge of the tarpaulin so that the upper portion of the tarpaulin covers the neighboring shrouds in half.
Field diverting assembly. 4. The method of claim 3,
An extended part is provided in the lower part of the tarpaulin, and the extended part is formed on either one of the central part of the lower part of the tarpaulin and the left and right edges of the lower part of the tarpaulin - If the direction of the water path is left, it is formed on the left edge, and if it is right, it is formed on the right edge - , made to lie along the direction of the waterway
Field diverting assembly. The method of claim 1,
The tarpaulin is attached to the water-repellent plate by a Velcro structure, and the Velcro structure includes a pair of Velcro lines and a rubber packing line therebetween.
Field diverting assembly.

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