KR102644077B1 - rain reservoir within adjusting angle module and Construction method of the same - Google Patents

Abstract

The present invention relates to the structure of a rainwater gutter structure, which is a facility that drains rainwater from the city to the outside, such as around roads and buildings, and has a structure in which the main body of the rainwater gutter that receives and drains rainwater and the grating part coupled to the main body are separated and combined. However, the upper grating part is implemented so that it can rotate on its own, making it possible to adjust the angle and height of the upper plane of the grating part.

Description

Angle-adjustable rainwater reservoir module and construction method thereof {rain reservoir within adjusting angle module and Construction method of the same}

The present invention relates to the structure of a rainwater catchment structure, which is a facility that drains rainwater from the city center, such as around roads and buildings, to the outside.

In general, road rainwater drains are one of the important water protection facilities that drain rainwater from the city center. In the city center, there is almost no soil layer, so when heavy rain falls, without these rainwater drains, rainwater cannot be drained smoothly.

Figure 1 shows the general form of this rainwater gutter structure. This rainwater catchment structure 1 is implemented with a structure in which a net-shaped grating 2 structure is disposed at the top and a body 4 that temporarily accommodates rainwater at the bottom.

In addition, the lower part of the body 4 has drain holes 5 on both sides, which are implemented in a pre-finished form and supplied to the construction site. After being seated as an embedded structure at the location where the drain pipe is installed, the pre-installed Construction is completed by connecting the drain pipe and the drain hole (5) of the rainwater gutter.

When connecting the drainage pipe and the drain hole of the rainwater gutter after the construction and design of the drainage pipe is completed after underground construction around a road or building, the connection direction ( If not, the construction method is adopted by arranging the entire location of the rainwater tank to match the corresponding drainage pipe.

In this case, as shown in Figure 2, (a) when adjacent to the wall (W) of a building, etc., the exposure direction of the upper plane of the rainwater gutter is tilted in the direction of the wall (P1) at an angle (P2). Due to the arrangement, a problem arises in that the upper surface of the rainwater gutter is constructed in an apparently open shape. Alternatively, in the case of a rainwater gutter placed at the bottom of a sidewalk block of a road, as shown in Figure 2(b), when the finished rainwater gutter is combined in the direction of the drain pipe (X), the drainage hole of the rainwater gutter is aligned with the direction. In this case, if the grating part is exposed, it is constructed in a tilted form with the board block, making it difficult to construct a clean appearance.

In either case, it is necessary to add concrete finishes to separate walls and inclined areas, or to remove or piece together pieces of sidewalk blocks to reinforce the construction, resulting in delays in construction.

Korea Deungtok Patent No. 0690583 Korean Patent No. 2363892 Korean Patent No. 1765314

The present invention was created to solve the above-mentioned problem. The purpose of the present invention is to implement a structure that separates and combines the rainwater gutter main body portion that receives and drains rainwater and the grating portion coupled to the main body portion, and the upper grating portion It provides a rainwater gutter structure that is implemented to be self-rotating, allowing angle and height adjustments of the upper plane of the grating section, and variably adjusts the position to suit various locations to improve the convenience and completeness of construction. There is.

As a means for solving the above-described problem, in an embodiment of the present invention, as shown in FIGS. 3 to 10, a rainwater gutter main body 100 having a water collection space (S) of a certain volume therein; It includes a grating part 200 coupled to the upper part of the main body 100, wherein the grating part 200 is a net-structured grating member 210 that allows rainwater to enter the interior and filters out foreign substances. ; A seating groove in which the grating member 210 is seated is provided, and the central portion is a seating portion 220 that communicates with the interior of the main body; An angle adjusting part 230 is formed in a structure that protrudes from the lower part of the seating part 220, is coupled to the upper part of the main body 100, and adjusts the exposure angle of the plane of the seating part 220. To provide an angle-adjustable rainwater gutter module, including:

In addition, the angle adjusting part 230 in the embodiment of the present invention is coupled in a structure that is interpolated to the coupling part 110 provided on the upper part of the main body 100, and the coupling part 110 includes, A corresponding pattern 115 corresponding to the coupling pattern 232 formed on the outer surface of the angle adjustment unit 230 is provided, and the coupling pattern 232 and the corresponding pattern 115 are in contact with the seating portion ( 220) It is possible to provide an angle-adjustable rainwater gutter module that adjusts the exposure angle of the plane.

Furthermore, the coupling pattern 232 is a screw pattern structure with a thread structure, and the corresponding pattern 115 is implemented as a pattern corresponding to the screw pattern structure, allowing it to be implemented as an angle-adjustable rainwater gutter module.

In addition, in an embodiment of the present invention, the coupling pattern 232 and the corresponding pattern 115 are in contact with each other, and after adjusting the exposure angle of the plane of the seating portion 220, the coupling pattern 232 and the corresponding pattern 115 are contacted. It is possible to provide an angle-adjustable rainwater gutter module that further includes a fixing member 240 that penetrates the pattern 115 and is fixed in the transverse direction.

Furthermore, the angle-adjustable rainwater gutter module may be additionally configured to include a double strainer fixed to the pattern of the angle adjustment unit and disposed inside the water collection space (S).

According to an embodiment of the present invention, a structure is implemented in which the rainwater gutter main body part that receives and drains rainwater and the grating part coupled to the main body are separated and combined, and the upper grating part is implemented so that it can rotate on its own, and the upper part of the grating part is implemented so that it can rotate on its own. The advantage of being able to adjust the angle and height of the plane is realized.

Through this, due to the combination and fixing structure of the rotation (twist) method of the grating, when installing the rainwater gutter module and connecting the drain pipe, depending on the connection between the drain hole of the rainwater gutter module and the drain pipe after construction, It solves the problem of gaping between meeting surfaces (building walls, boundary stones, pavement, etc.) and improves the convenience and completeness of construction by variably adjusting the position to suit various locations.

Figure 1 is a conceptual diagram showing a conventional rainwater gutter structure.
Figure 2 is an image to explain problems that occur when constructing a conventional rainwater gutter structure.
Figure 3 is a perspective conceptual diagram of an angle-adjustable rainwater gutter module according to an embodiment of the present invention.
Figure 4 is an exploded perspective view of Figure 3, Figure 5 is a cross-sectional conceptual diagram, and Figure 6 is a diagram showing the coupling structure of Figure 5.
7 to 10 show drawings according to another embodiment of the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosure will be thorough and complete and so that the spirit of the invention can be sufficiently conveyed to those skilled in the art.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present application. No.

Figure 3 is a perspective conceptual diagram of an angle-adjustable rainwater gutter module (hereinafter referred to as 'the present invention') according to an embodiment of the present invention. Figure 4 is an exploded perspective view of Figure 3, Figure 5 is a cross-sectional conceptual diagram, and Figure 6 is a diagram showing the coupling structure of Figure 5.

Referring to FIGS. 3 to 6, the present invention includes a rainwater gutter main body 100 having a water collection space S of a certain volume therein, and a grating part 200 coupled to and disposed on the upper part of the main body 100. ) and consists of

In this case, the grating unit 200 is provided with a net-structured grating member 210 that allows rainwater to enter the interior and filters out foreign substances, and is provided with a seating groove 215 in which the grating member 210 is seated. The central portion 217 is provided with a seating portion 220 that communicates with the interior of the main body.

As shown in FIGS. 4 and 5, the seating portion 220 has the shape of a frame portion 218 on which the grating member 210 is seated, and the grating member 210 is accommodated therein, so that the upper portion is It settles down in an exposed landfill.

An angle adjusting part 230 is provided at the lower part of the seating part 220. That is, the angle adjusting part 230 is formed in a structure that protrudes from the lower part of the seating part 220, is coupled to the upper part of the main body 100, and has an exposed angle of the plane of the seating part 220. It performs the function of controlling.

As shown in Figures 4 and 5, the angle adjusting part 230 is implemented in a structure that protrudes from the lower part of the seating part 220, and is formed as a protruding structure on the upper part of the lower main body 100. Enables coupling with the coupling portion 110. In this process, the angle adjusting part 230 of the present invention is coupled to the coupling part 110, and the main body part 100 of the present invention is placed at the place where the drain pipe is installed to connect the drain holes 120 and 130. do. Afterwards, the angle adjustment unit 230 is coupled to the coupling unit 110 to adjust the height and the angle of the upper exposed surface, taking into account the arrangement with surrounding objects (outer wall of the building, direction and angle of sidewalk blocks, etc.) Perform the combination. Afterwards, the positions of the coupling part and the angle adjusting part are finally fixed through the fixing member, and the construction can then be completed by seating the grating member 210.

In this case, in particular, the angle adjusting part 230 of the present invention is coupled in a structure that is interpolated into the coupling part 110 provided on the upper part of the main body 100, and the coupling part 110 includes the angle adjusting part 230. A corresponding pattern 115 is provided corresponding to the coupling pattern 232 formed on the outer surface of the adjustment unit 230, and the coupling pattern 232 and the corresponding pattern 115 are in contact with the seating portion 220. It allows you to perform the function of adjusting the exposure angle of the plane.

In a preferred embodiment of the present invention, the coupling pattern 232 has a screw pattern structure with a thread structure, and the corresponding pattern 115 can be implemented as a pattern corresponding to the screw pattern structure. When implemented in a screw pattern, the coupling pattern can be aligned to correspond to the corresponding pattern, and then the angle adjustment unit 230 can be twisted to adjust the coupling angle in consideration of surrounding objects and the design position, while also setting the angle. Even if left as is, it can increase the convenience of construction in that it provides support that does not easily change height or position in a fixed state.

Thereafter, as shown in FIG. 4, it can be firmly fixed through a process of fixing it to the fixing hole 245 through the fixing member 240. That is, in the present invention, after the coupling pattern 232 and the corresponding pattern 115 are in contact with each other and the exposure angle of the plane of the seating portion 220 is adjusted, the coupling pattern 232 and the corresponding pattern 115 ) may further include a fixing member 240 fixed in the transverse direction with a structure penetrating the structure. The fixing member 240 can use screws, fixing pins, etc., and this fixing functions to prevent the angle of the exposed surface of the upper surface from being distorted by external force. When construction is completed on the structure of FIG. 5, it can be implemented as a combined structure as shown in FIG. 6.

Figure 7 is a perspective view showing the structure of a rainwater gutter according to another embodiment of the present invention. Figure 8 is an exploded perspective view of Figure 7, Figure 9 is a side cross-sectional view, and Figure 10 is a combined view of Figure 9.

The difference between the structure of the above-described embodiment and the structure of the embodiment of FIG. 7 is that the structure of the main body is implemented as a structure with a curvature.

The configuration of the angle adjusting unit 230 and the implementation embodiment of the coupling unit 110 can be implemented in the same manner as described above, and the coupling structure can be implemented in various ways such as a sliding fitting method or a screw coupling method, but the screw coupling structure can be implemented in various ways such as a sliding fitting method or a screw coupling method. As described above, implementing a pattern structure in a twisting and combining structure is good in terms of combination stability.

The structure of the main body part described above in the embodiment of the present invention is implemented in a structure where the main body part 300 has a cylindrical structure, as shown in FIG. 9, and the width of the upper part becomes narrower toward the lower part. desirable. This implements a function that allows rainwater flowing in from the upper grating member 210 to go down to the bottom and be quickly discharged through the discharge hole 320 without stagnating.

If rainwater accumulates inside the main body, it rots together with fallen leaves and organic matter, generating a foul odor, and there is a risk of the occurrence of pests such as mayflies. As shown in Figures 5 and 9, the main body It is desirable to implement a structure in which the width (d1) of the uppermost part is wider than the width (d2) of the lowermost part, and the width (d1) of the uppermost part of the area excluding the coupling portion 110 is the width (d2) of the lowermost part. It is more desirable to implement the ratio to meet the range of 1: (0.6 to 0.8). If the ratio of the width of the lower part is less than 0.6, it is difficult to ensure structural stability, and if it exceeds 0.8, the possibility of stagnation of rainwater inflow increases and the risk of odor generation increases.

In addition, as shown in Figures 5 and 9, the drain holes are arranged on both sides of the main body, but the drain hole 310 on one side is not formed at the same height as the drain hole on the other side 340, but is at a different height from each other. It is more desirable to form it in . This is also connected to the drain pipe, so that when rainwater flows into the rainwater gutter and water also flows into the drain pipe at the same time, the rainwater can be quickly drained without staying inside the main body.

For this purpose, as shown in Figures 5 and 9, the height (t1) from the bottom of the main body to the center (a1) of the drain hole 330 on one side and the center (b1) of the drain hole 320 on the other side are Considering the height (t2), it is desirable to place it in a position in the range of t1:t2=1:(0.5~0.8). The reason that the height (t2) to the center (b1) of the other drain hole (320) is placed at a higher position than the floor (b2) is that, due to the construction method of the rainwater gutter mounted in a buried structure, water flows back and flows inside. This is to prevent water flowing in from the drain pipe by designing it at a location where the height of the drain hole 330 on one side partially overlaps the height of the drain hole on the other side, so that water flowing in from the drain pipe can be easily discharged.

In the case of the rainwater gutter module according to the embodiment of the present invention described above, it can be constructed through the following construction process.

Specifically, a) providing an installation space on the bottom of the excavation where the rainwater gutter is installed, b) arranging the main body of the rainwater gutter module in the installation space and connecting the drain pipe with the drain hole of the main body, c. ) Connecting the angle adjusting part of the grating part to the coupling part of the main body part, rotating the angle adjusting part to adjust the height and exposure angle of the seating part, c) fixing the coupling part and the angle adjusting part with a fixing member, and attaching the grating member Construction can be done through the settling stage.

In this process, due to the combination and fixing structure of the rotation (twist) method of the rating part, when installing the rainwater gutter module and connecting the drain pipe, depending on the connection between the drain hole of the rainwater gutter module and the drain pipe after construction, By solving the problem of gaping between surfaces that meet afterward (building walls, boundary stones, pavement, etc.), the convenience and completeness of construction can be improved by variably adjusting the position to suit various locations.

In addition, during the above-described construction process of the present invention, various filter members or filter nets may be installed inside the rainwater gutter module to add the function of removing odor or filtering contaminants.

For example, when fixing the structure of the coupling part 110 implemented on the upper part of the main body 100 described above in FIGS. 5 and 9 using a member such as the fixing member 240, before using the fixing member. , the filter net of the mesh-type structure can be fixed together through each fixing member and installed so that the filter net can be accommodated inside the main body. In the case of these filters, pollutants (fallen leaves, trash, cigarette butts, etc.) flowing in through the grating members are primarily accommodated, and only rainwater can be discharged through the drainage hole, and rainwater overflows in the city due to sudden heavy rain, etc. If the road is flooded, rainwater can be easily discharged by lifting the grating member and removing the filter net.

In addition, it is more desirable to strengthen the corrosion resistance of the main body of the present invention by making it possible to manufacture plastic such as synthetic resin through injection molding.

Furthermore, in the case of the grating member of the present invention, it is more desirable to be able to implement it with a metal material, and in the case of the surface, to perform surface treatment to form a reinforcing coating film to strengthen corrosion resistance.

For example, corrosion resistance can be strengthened by coating the surface of a grating member made of stainless steel or alloy with a coating material containing a mixture of chromium, nickel, boron, silicon, manganese, and aluminum.

In this case, chromium (Cr) is an element that promotes the formation of an oxide film on stainless steel, and in order to ensure corrosion resistance, it is necessary to add more than 20% by weight based on 100% by weight of the coating material for the entire coating. If added excessively, ferrite is formed. Since it is a phase-generating element, hot workability deteriorates and the nickel content must be further increased. Therefore, it is desirable to contain 21 to 24% by weight.

Nickel (Ni), like C and N, is an element that stabilizes the austenite phase and improves oxidation resistance. However, considering economic efficiency, it is preferably contained in an amount of 11 to 13% by weight.

Silicon (Si) is an element that improves oxidation resistance and deteriorates weldability and hot workability when added excessively, so it is preferably contained in an amount of 0.5 to 1.5% by weight.

Manganese (Mn) is an element that replaces Ni as an austenite phase stabilizing element and metastabilizes the austenite phase, but if added excessively, it deteriorates corrosion resistance, so it is preferably contained in an amount of 0.5 to 0.9% by weight.

Aluminum (Al) is a crystal grain size control and deoxidizer element, and if added excessively, acid resistance may be weakened, so in the present invention, it is preferably included in an amount of 0.01 to 0.05% by weight.

Boron (B) improves creep rupture strength and workability, but excessive boron deteriorates weldability, so in the present invention, it is preferably contained in an amount of 0.0001 to 0.001% by weight.

In addition, in another embodiment of the present invention, separately from the treatment of the coating liquid described above, a photocatalytic material is coated on the surface of the grating member, and when installed externally, it reacts with visible light to perform photo-oxidation, It is more desirable to be able to decompose the odor.

In the case of coating treatment with such a photocatalytic material, exposure to natural light such as visible light and ultraviolet rays in an outdoor environment is the environment in which the grouting member is placed, so the following is done to perform a photo-oxidation reaction in response to light in the visible light series. Allows the same coating treatment to be performed.

First, a platinum-based metal (Au, Ag, Pt, Pd) material with strong affinity for electrons is applied on TiO ₂ to the surface of the grouting member, and then an additional treatment of MnO ₂ is performed. can do.

In the case of containing TiO ₂ and MnO ₂ , it is applied at a volume ratio of 1: 0.1 to 0.9 to expand the wavelength range of the photo reaction from ultraviolet rays to the visible light range, allowing the photo-oxidation reaction to be implemented even in an outdoor environment, Ensures that odors can be decomposed and removed on a regular basis.

The description of the present invention described above is for illustrative purposes, and those skilled in the art will understand that the present invention can be easily modified into other specific forms without changing the technical idea or essential features of the present invention. will be. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

100: Rainwater gutter main body
200: Grating part
210: Grating member
220: Seating part
230: Angle adjustment unit

Claims (5)

In the angle-adjustable rainwater gutter module for roads and around buildings,
A rainwater gutter main body (100) having a water collection space (S) of a certain volume therein;
It includes a grating part 200 coupled to and disposed on the upper part of the main body part 100,
The grating unit 200 includes a net-structured grating member 210 that allows rainwater to enter the interior and filters out foreign substances; A seating groove in which the grating member 210 is seated is provided, and the central portion is a seating portion 220 that communicates with the interior of the main body; An angle adjusting part 230 is formed in a structure that protrudes from the lower part of the seating part 220, is coupled to the upper part of the main body 100, and adjusts the exposure angle of the plane of the seating part 220. Equipped with
The angle adjusting unit 230,
It is coupled in a structure that is interpolated into the coupling portion 110 provided on the upper part of the main body 100, and the coupling portion 110 includes a coupling pattern 232 formed on the outer surface of the angle adjusting portion 230. A corresponding pattern 115 is prepared,
The coupling pattern 232 and the corresponding pattern 115 are in contact with each other to adjust the exposure angle of the plane of the seating portion 220. The coupling pattern 232 is a screw pattern structure with a thread structure, and the corresponding pattern is (115) is implemented as a pattern corresponding to the screw pattern structure,
After the coupling pattern 232 and the corresponding pattern 115 are in contact with each other and the exposure angle of the plane of the seating portion 220 is adjusted, a structure is formed that penetrates the coupling pattern 232 and the corresponding pattern 115. It further includes a fixing member 240 fixed in the transverse direction,
The surface of the grating member is coated with a coating material containing a mixture of chromium, nickel, boron, silicon, manganese, and aluminum, and the coating material contains 21 to 24% by weight of chromium (Cr) and 11 to 13% of nickel. By weight, silicon contains 0.5 to 1.5 wt%, manganese contains 0.5 to 0.9 wt%, aluminum contains 0.01 to 0.05 wt%, and boron contains 0.0001 to 0.001 wt%.
After coating the surface of the grating member with the coating material, TiO ₂ as a photocatalyst material is applied, and one of Au, Ag, Pt, and Pd, which are platinum-based metals, is applied on TiO ₂ and then MnO ₂ Further applied, TiO ₂ and MnO ₂ are characterized in that the volume ratio is 1: 0.1 to 0.9,
Angle-adjustable rainwater gutter module.
delete delete delete In the construction method of an angle-adjustable rainwater gutter module for roads and around buildings,
A rainwater gutter main body (100) having a water collection space (S) of a certain volume therein;
It includes a grating part 200 coupled to and disposed on the upper part of the main body part 100,
The grating unit 200 includes a net-structured grating member 210 that allows rainwater to enter the interior and filters out foreign substances; A seating groove in which the grating member 210 is seated is provided, and the central portion is a seating portion 220 that communicates with the interior of the main body; An angle adjusting part 230 is formed in a structure that protrudes from the lower part of the seating part 220, is coupled to the upper part of the main body 100, and adjusts the exposure angle of the plane of the seating part 220. Equipped with
The angle adjusting unit 230,
It is coupled in a structure that is interpolated into the coupling portion 110 provided on the upper part of the main body 100, and the coupling portion 110 includes a coupling pattern 232 formed on the outer surface of the angle adjusting portion 230. A corresponding pattern 115 is prepared,
The coupling pattern 232 and the corresponding pattern 115 are in contact with each other to adjust the exposure angle of the plane of the seating portion 220. The coupling pattern 232 is a screw pattern structure with a thread structure, and the corresponding pattern is (115) is implemented as a pattern corresponding to the screw pattern structure,
After the coupling pattern 232 and the corresponding pattern 115 are in contact with each other and the exposure angle of the plane of the seating portion 220 is adjusted, a structure is formed that penetrates the coupling pattern 232 and the corresponding pattern 115. It further includes a fixing member 240 fixed in the transverse direction,
The surface of the grating member is coated with a coating material containing a mixture of chromium, nickel, boron, silicon, manganese, and aluminum, and the coating material contains 21 to 24% by weight of chromium (Cr) and 11 to 13% of nickel. By weight, silicon contains 0.5 to 1.5 wt%, manganese contains 0.5 to 0.9 wt%, aluminum contains 0.01 to 0.05 wt%, and boron contains 0.0001 to 0.001 wt%.
After coating the surface of the grating member with the coating material, TiO ₂ as a photocatalyst material is applied, and one of Au, Ag, Pt, and Pd, which are platinum-based metals, is applied on TiO ₂ and then MnO ₂ Further applied, TiO ₂ and MnO ₂ are applied to an angle-adjustable rainwater gutter module, characterized in that the volume ratio is 1: 0.1 to 0.9,
a) preparing an installation space on the bottom of the excavation where a rainwater gutter is to be installed;
b) placing the main body of the angle-adjustable rainwater gutter module in the installation space and connecting the drain pipe with the drain hole of the main body;
c) coupling the angle adjusting portion of the grating portion to the coupling portion of the main body portion, and rotating the angle adjusting portion to adjust the height and exposure angle of the seating portion;
d) fixing the coupling portion and the angle adjusting portion with a fixing member and seating the grating member; comprising
Construction method of angle-adjustable rainwater gutter module.

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