KR20160098572A - Manhole repairing structure and construction method thereof - Google Patents

Abstract

The present invention relates to a manhole repairing structure and a construction method thereof. The manhole repairing structure of the invention comprises: a manhole body; a lower ring included in an upper side of the manhole body; an upper ring spaced apart in the upper side of the lower ring; an inner tube provided in the inner end between the upper ring and the lower ring; a filler filled between the upper ring and the lower ring; and a manhole iron cover provided in the upper side of the upper ring. The invention is capable of controlling the height of a manhole iron cover using the upper ring, the lower ring, the inner tube, the outer tube, and the filler, thereby precisely installing the manhole iron cover according to the height of a road surface.

Description

[0001] The present invention relates to a manhole repair structure and a construction method thereof,

The present invention relates to a manhole maintenance structure and a construction method thereof.

A manhole is installed in the basement of the road or in the underground of the pipe, the point where the direction or inclination of the pipe changes, the point where the step occurs, the point where the pipe joins, and the point necessary for the maintenance of the pipe. Or manholes are to be installed for operations such as pulling in, pulling out, connecting, relaying, installing, demolishing or checking cables.

The manhole is generally constructed with a manhole iron over the lower slab of the manhole. However, due to the vibration and load generated by the passage of vehicles or people driving on the road after construction, the brick supporting the manhole is broken or settled and the manhole is collapsed or the landing of the road causes the manhole and the manhole cover And the case of exposure to the upper side of the road surface is frequently issued.

Therefore, in the past, manholes were repaired with brick, concrete and height adjustment device to match the height of the manhole and the ground. However, when the height of the manhole iron is adjusted by brick or concrete, it is difficult to precisely construct it. When the vehicle is passing through, the brick or concrete is cracked or broken due to vibration or load of the vehicle, And the settlement phenomenon occurs, resulting in a decrease in durability. In addition, since the flatness is lowered due to the step difference, the ride feeling of the vehicle is lowered and breakage and settlement phenomenon of the lower manhole slab occurs. In the case of settlement, water is accumulated around the manhole and the durability of the package and the vehicle traffic are dangerous.

In addition, when the manhole height is adjusted using a height adjusting device or the like, it is very difficult to install because of the complicated structure of the height adjusting device. When the manhole slab surface and the road surface are not horizontal, There is a problem that it becomes inconsistent.

Patent 1: Korean Patent No. 10-1157643

In order to solve the above-mentioned problems, the present invention provides a manhole repair structure capable of finely adjusting the height of the manhole, using the upper ring, the lower ring, the inner tube, the outer tube and the filler, And a method of constructing the same.

Also, it is intended to provide a manhole repair structure and a construction method thereof, which can be structurally stable and sufficiently cope with external force by tightly filling a filler between the upper ring, the lower ring, the inner tube, and the outer tube.

In addition, an inner pipe and an outer pipe are provided between the upper ring and the lower ring to control the lateral deformation of the filling material, and the upper ring, the lower ring, the inner pipe and the outer pipe are coupled with each other by a concave- And a method of constructing the same.

Also, because of the simple structure using the upper ring, the lower ring, the inner tube, the outer tube, and the filler, it provides a manhole repair structure and its construction method that can be applied quickly and easily when wrapping the existing road road surface or packing the new road I want to.

Also, it is intended to provide a manhole maintenance structure and a construction method thereof that increases durability and reduces maintenance cost through a manhole repair structure using an upper ring, a lower ring, an inner pipe, an outer pipe, and a filler.

It also includes a cap between the inner tube and the upper ring or between the inner tube and the lower ring to correspond to the shape of the recess or the convex portion to significantly reduce durability by preventing local breakage of the edges of the upper ring or lower ring and inner tube And to provide a manhole maintenance structure and a construction method thereof.

A manhole maintenance structure according to an example of the present invention includes a manhole body; A lower ring provided on the upper side of the manhole body; An upper ring spaced apart above the lower ring; An inner tube disposed at an inner end between the upper ring and the lower ring; A filler filled between the upper ring and the lower ring; And a manhole ridge provided on the upper side of the upper ring.

Further, the upper ring, the lower ring, or the filler may be made of a mixture including cement and fine aggregate.

In addition, the upper ring, lower ring, or filler may be made of a mixture comprising methyl methacrylate (MMA) resin and fine aggregate.

Further, the upper ring, lower ring, or filler may be a mixture of ball saturated polyester resin and fine aggregate.

Further, the upper ring, the lower ring, or the filler may be made of a mixture including MMA resin, unsaturated polymer ester resin, and fine aggregate.

In addition, the inner tube may be made of fiber reinforced plastic (FRP).

The upper ring and the lower ring may have recesses on which the inner tube is seated.

In addition, a convex portion on which the inner tube is seated may be provided on an upper portion of the lower ring and a lower portion of the upper ring.

The upper and lower portions of the inner tube are provided with concave portions and the convex portions corresponding to the concave portions of the lower and upper portions of the inner tube are respectively provided at the upper portion of the lower ring and the lower portion of the upper ring.

The upper and lower portions of the inner tube may be provided with convex portions and the concave portions corresponding to the lower and upper convex portions of the inner tube may be respectively provided at the upper portion of the lower ring and the lower portion of the upper ring.

Further, the convex portion and the concave portion may be continuous or intermittent.

The apparatus may further include an outer tube provided at an outer end portion between the upper ring and the lower ring.

In addition, the outer tube may be made of polyethylene (PE).

Further, a convex portion on which the outer tube is seated may be provided on an upper portion of the lower ring or a lower portion of the upper ring.

Further, an adhesive may be applied between the manhole body and the lower ring.

Further, an adhesive may be applied after the irregularities are formed on the upper side of the manhole body.

In addition, the adhesive may be a cement mortar or a resin-based adhesive.

Also, an adhesive may be applied between the inner tube and the upper ring, between the inner tube and the lower ring.

Further, the adhesive may be a resin mortar.

The cap may further include a cap corresponding to the shape of the concave or convex portion between the inner tube and the upper ring or between the inner tube and the lower ring.

According to an aspect of the present invention, there is provided a method for constructing a manhole repair structure, comprising: installing the lower ring on an upper side of the manhole main body; Installing the inner tube at an upper inner end of the lower ring; Filling the filler material outside the inner tube; Installing the upper ring on the inner tube and the filler material; And installing the manhole ridge on the upper side of the upper ring.

In addition, the step of installing the lower ring may further include a step of applying an adhesive between the manhole main body and the lower ring.

In addition, the step of installing the inner pipe and the step of installing the upper ring may further include a step of applying an adhesive between the inner pipe and the upper ring, and between the inner pipe and the lower ring.

Installing the lower ring on the upper side of the manhole body; Installing the inner tube at an upper inner end of the lower ring; Providing the outer tube at an upper outer end of the lower ring; Filling the filler between the inner tube and the outer tube; Installing the upper ring on the upper side of the inner tube and the outer tube; And installing the manhole ridge at an upper side of the upper ring.

According to the present invention, the height can be finely adjusted by using the upper ring, the lower ring, the inner tube, the outer tube, and the filler, thereby providing the effect that the manhole can be precisely adjusted to the height of the road surface.

Further, since the filling material is filled tightly between the upper ring, the lower ring, the inner tube, and the outer tube, it is possible to provide the effect of being structurally stable and coping with the external force sufficiently.

In addition, an inner pipe and an outer pipe are provided between the upper ring and the lower ring to control the lateral deformation of the filler, and the upper ring, the lower ring, the inner pipe, and the outer pipe are coupled with each other by a concave- can do.

Also, the simple structure using the upper ring, the lower ring, the inner pipe, the outer pipe, and the filler material can provide the effect of quickly and easily constructing the overlaying pavement of the existing road roadway or the packaging of the new roadway.

In addition, the durability can be increased through the manhole repair structure using the upper ring, the lower ring, the inner pipe, the outer pipe, and the filler, and the maintenance cost can be reduced.

It also includes a cap between the inner tube and the upper ring or between the inner tube and the lower ring to correspond to the shape of the recess or the convex portion to significantly reduce durability by preventing local breakage of the edges of the upper ring or lower ring and inner tube Effect can be provided.

1 is a plan view and a cross-sectional view showing a construction in which a manhole maintenance structure according to an example of the present invention is applied.
2 and 3 are a cross-sectional view and a plan view showing an upper ring or a lower ring of a manhole maintenance structure according to an example of the present invention.
4 and 5 are a cross-sectional view and a plan view showing an inner tube of a manhole maintenance structure according to an example of the present invention.
6A to 6C are cross-sectional views showing the top ring of the manhole maintenance structure and the joint portion of the inner ring and the bottom ring according to an example of the present invention.
Figs. 6ea to 6ee are cross-sectional views showing a cap provided at an engagement portion of an upper ring and a lower ring and an inner tube of a manhole maintenance structure according to an example of the present invention. Fig.
7 and 8 are a cross-sectional view and a plan view showing an outer tube of a manhole maintenance structure according to an example of the present invention.
9 is a cross-sectional view showing a manhole maintenance structure including an outer pipe according to an example of the present invention.
10 is a plan view showing an upper ring or a lower ring, an inner pipe, and an outer pipe of a manhole maintenance structure according to an example of the present invention.
11 is a flowchart showing a construction method of a manhole maintenance structure according to an example of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In the drawings, like reference numerals are used to refer to like elements throughout the drawings, even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, May be "connected "," coupled "or" connected ".

Hereinafter, the construction of a manhole maintenance structure according to an example of the present invention will be described in detail with reference to the drawings.

1 is a plan view and a cross-sectional view showing a construction of a manhole maintenance structure according to an example of the present invention. Figs. 2 and 3 are a cross-sectional view and a plan view showing the upper ring or the lower ring of the manhole maintenance structure, and Figs. 4 and 5 are a cross-sectional view and a plan view showing the inner tube of the manhole maintenance structure. 6a to 6dc are cross-sectional views showing a top ring of the manhole maintenance structure and a joint portion between the bottom ring and the inner tube, and Figs. 6ea to 6ee show the top ring of the manhole maintenance structure and the cap (260). 9 is a cross-sectional view showing a manhole maintenance structure including an outer pipe, and Fig. 10 is a sectional view showing an upper ring or a lower ring of the manhole maintenance structure, and Fig. A pipe, and an outer pipe.

1, a manhole maintenance structure according to an exemplary embodiment of the present invention includes a lower ring 210, an inner pipe 230, an upper ring 220, and a filler (not shown) between a manhole body 110 and a manhole 240) to adjust the height of the manhole. Hereinafter, the inside is referred to as a manhole direction, and the outside is used to mean a direction opposite to a manhole.

A lower ring 210 is provided on the upper side of the manhole body 110 and an upper ring 220 provided on the lower side of the manhole pillar 120 is provided at an upper portion of the lower ring 210, An inner tube 230 is provided at the inner end between the upper ring 220 and the lower ring 210 and a filler 240 is filled between the upper ring 220 and the lower ring 210. Typically, the filler material 240 is first filled before the upper ring 220 is installed, and then the upper ring 220 is installed. 2 and 3, the upper ring 220 and the lower ring 210 are provided in a donut shape that covers the inner tube 230 and the filler 240, which will be described later, from the top and bottom sides.

The material of the upper ring 220 or the lower ring 210 may be cement mortar, which is a mixture containing cement and fine aggregate, or resin mortar, which is a mixture containing resin and fine aggregate. The mixture of cement and fine aggregate can be produced in a usual range. When the resin and the fine aggregate are mixed, the resin can use methyl methacrylate (MMA) resin and unsaturated polyester resin. That is, a mixture containing an MMA resin and a fine aggregate may be used, or a mixture containing a ball saturated polyester resin and a fine aggregate may be used, or a mixture containing an MMA resin, an unsaturated polyester resin, and a fine aggregate may be used. MMA resin or unsaturated polyester resin, MMA resin or unsaturated polyester resin, 0.5-1.0% of the curing agent of the resin used, 0.5-0.6% of the accelerator of the resin to be used, calcium carbonate of the filler, When the MMA resin and the unsaturated polyester resin are used together, the compounding ratio of the two constituents is preferably 6: 4, but it is preferably in the range of 5.5 to 6.5: 4.5 to 3.5 As shown in FIG. The filling material 240 to be described later may also use the same material as the upper ring 220 or the lower ring 210.

An adhesive may be applied between the manhole main body 110 and the lower ring 210 to connect the lower ring 210 to the manhole body 110 when the lower ring 210 is installed on the upper side of the manhole body 110, The manhole main body 110 and the lower ring 210 may be more firmly coupled by forming a rough uneven portion on the upper side of the manhole body 110 and then applying an adhesive. At this time, a cement mortar or a resin-based adhesive is used, and the manhole body 110 and the lower ring 210 may be packed with a rubber ring or the like so that the adhesive does not leak when the adhesive agent is applied to the manhole body 110.

The inner tube 230 is provided at the inner end between the upper ring 220 and the lower ring 210 and is provided in the form of a ring having a predetermined height on the inner side of the manhole, as shown in FIGS. The inner pipe 230 is a main member that adjusts the height of the manhole cover 120 so that the top surface thereof coincides with the road surface. The height of the manhole maintenance structure is adjusted according to the height of the inner tube 230. In addition, the inner tube 230 is configured to bear an upper vehicle load coming from the manhole cover 130 and at the same time to prevent the filling material 240 from being deformed in the inner direction, thereby allowing the manhole to withstand even a large load by the heavy vehicle.

In this embodiment, the height of the inner pipe 230 can be used as needed, so that the manhole cover 120 can be precisely installed so as to match the height of the road surface. That is, the inner tube 230 may be cut to meet the required height in the field, or may be cut and supplied as previously designed, or may be cut to suit the required height in the field after cutting the columnar cutting line easily It is possible.

The inner tube 230 may be made of fiber reinforced plastic (FRP), and the fiber reinforced plastic (FRP) may be made of any one of epoxy, polyester, vinyl ester, and phenol, One is impregnated, and the filament is wound by a filament winding method or a drawing-forming method.

The upper ring 220 and the lower ring 210 and the inner tube 230 are formed by applying an adhesive such as resin mortar between the upper ring 220 and the inner tube 230 and between the lower ring 210 and the inner tube 230 Or may be combined with a concavo-convex structure as shown in Figs. 6aa to 6dc to further strengthen the coupling.

The top ring 220 and the bottom ring 210 and the inner tube 230 are configured such that the shape of the inner tube 230 does not change with the top of the bottom ring 210 and the top of the top ring 220, And a recessed portion in which the inner tube 230 is seated can be provided at the inner end of the lower portion. When the inner tube 230 is provided in the innermost part of the upper and lower rings 220 and 210 as described above, the inner side of the inner tube 230 and the inner side of the upper and lower rings 220 and 210, So that there is no problem that equipment such as a manhole entrance and exit is caught by a structure in which the manhole entrance does not have a jaw. In addition, the inner tube 230 is seated in the groove of the upper and lower rings 220 and 210 so that lateral movement in the outward direction is suppressed. Even when the inner tube 230 is urged in the inward direction, Since the inner pipe 230 on the opposite side of the inner pipe 230 and the inner pipe 230 on the left and right sides are caught by the grooves of the upper ring 220 and the lower ring 210 to inhibit the movement of the entire inner pipe 230, And is stably fixed. The recess may be moved outward at the inner end of the upper and lower rings 220 and 210 as shown in FIG. 6ab. In this case, a tuck is formed in the manhole entrance, but the inner tube 230 can be fixed very firmly by restraining movement in either the inside or outside direction.

As shown in 6ba, an inner tube 230 is installed at the upper part of the lower ring 210 and the lower part of the upper ring 220 so as to be installed at the innermost side of the upper ring 220 and the lower ring 210, A protruding portion on which the protrusion 230 is seated can be provided. In this case, the inner side of the inner tube 230 and the inner side of the upper and lower rings 220 and 210 coincide with each other on the vertical line so that the manhole entrance is free of jaws, , There is no sectional loss between the upper ring 220 and the lower ring 210, which is structurally stable. The convex portions of the upper ring 220 and the lower ring 210 may be provided inside the inner tube 230 as shown in FIG. 6Bb or may be provided both inside and outside the inner tube 230 as shown in FIG. It may be stabilized.

The upper and lower portions of the lower ring 210 and the lower portion of the upper ring 220 are respectively provided with a concave portion and a lower portion of the inner tube 230, A convex portion corresponding to the concave portion of the upper portion may be provided. In this case, in addition to the convex portion, a convex portion may be provided on the inner side or the outer side of the inner tube 230, or may be provided on both the inner side and the outer side (see Figs. 6cb, 6cc, and 6cd). Also, unlike FIG. 6Ca, the upper and lower recessed portions of the inner tube 230 may be provided at an inner end or an outer end of the inner tube 230, not at the center thereof (not shown).

6D, a convex portion is provided at the upper and lower portions of the center of the inner tube 230, and a convex portion is formed at the lower portion of the lower ring 210 and the lower portion of the upper ring 220, As shown in FIG. In this case, the convex portion of the inner tube 230 may be formed at the inner end (see FIG. 6 db) or at the outer end (see FIG. 6 dc) of the inner tube 230 and the corresponding upper ring 220 and lower ring 210 are formed to correspond to the convex portions of the inner tube 230.

When the inner tube 230 is coupled to the upper ring 220 and the lower ring 210 by the concave and convex portions as described above, the inner tube 230 is separated or removed from the upper ring 220 and the lower ring 210 Thereby preventing the lateral directional deformation of the filler 240, thereby stably supporting the manhole. That is, the lower ring 210, the upper ring 220, the inner pipe 230, and the filler 240 are tightly coupled to each other to stably withstand repeated vibrations of the vehicle on the road

The concave and convex portions may be intermittent in addition to the continuous shape. When the concave portion and the convex portion are formed intermittently, the inner tube 230 and the upper ring 220 and the lower ring 210 are prevented from being pushed inward or outward, By firmly fixing it, it is possible to maintain a more stable supporting state against external load or impact.

6e-6ee, a cap 260 is formed between the inner tube 230 and the upper ring 220, or between the inner tube 230 and the lower ring 210, corresponding to the shape of the concave and convex portions, May be additionally provided. For example, in the embodiment of FIG. 6aa, a Lap shaped cap 260 may be provided between the inner tube 230 and the upper ring 220, between the inner tube 230 and the lower ring 210 (see FIG. 6ea) . The cap 260 prevents local corruption of the corners of the inner tube 230, the upper ring 220 or the lower ring 210 and, when a local breakage occurs, It compensates for the weakness and prevents the breakage area from being further expanded, greatly increasing the durability of the entire manhole repair structure. The cap 260 may be made of a steel or a rigid plastic and may be made of an elastic material so that the inner tube 230 and the upper ring 220, the inner tube 230 and the lower ring 210 It is possible to improve the coupling structure of the inner pipe 230 and the upper ring 220 or the lower ring 210 by accommodating fine protrusions or the like that may exist in the concave and convex portions. The cap 260 may be a separate member, but may be embedded in the inner pipe 230, the upper ring 220, or the lower ring 210 in advance. A shear connection member (see FIG. 6 eb) may be provided to enhance the coupling between the cap 260 and the inner tube 230, the upper ring 220, or the lower ring 210.

6 (c)). In the embodiment of FIG. 6 (b), the shape of the cap 260 is a concave shape or a concave shape connected to the concave shape (see FIG. 6 (e) 6bc, it is possible to cover a part of the shape of the recessed portion and the convex portion made of the U-shape or the W-shape (see Fig. 6ee) or to cover a wider range.

The filling material 240 is filled between the upper ring 220 and the lower ring 210 in the outer direction of the inner pipe 230 and is filled up to the excavation portion around the manhole repair structure so that the entire manhole repair structure is tightly fixed to the surrounding road do. The filler material 240 may use the same material as the upper ring 220 and the lower ring 210. However, the filler 240 is not cured and after it is hardened, it is integrated with the lower ring 210, the upper ring 220, the inner tube 230, and the road, so as to cope with external impact loads and the like .

The present embodiment is constituted by the upper ring 220, the lower ring 210, the inner pipe 230 and the filler 240 so that the height of the manhole cover 120 can be easily adjusted to the height of the road surface, A higher compressive strength can be secured and the filler 240 having excellent durability can sufficiently cope with external external force.

7 to 10, the upper ring 220 and the lower ring 210 may further include an outer pipe 250 made of polyethylene (PE) at an outer end thereof. The outer tube 250 is as high as the inner tube 230 and is provided with a ring-shaped circle. Also, the outer tube 250 may be coupled to the upper ring 220 and the lower ring 210 in a concave-convex structure not shown in the figure.

In general, when the manhole is repaired, the road is quickly opened due to the fact that the road can not be controlled for a long time. In such a case, the less hardened filler 240 is settled by the vehicle load, It is eventually destroyed by cyclic loading. However, when the outer pipe 250 is disposed at the outer ends of the upper ring 220 and the lower ring 210 spaced apart from the inner pipe 230, the filler 240 is restrained in the vertical, Therefore, there is an advantage of long-term strength.

The lower ring 210 is installed on the upper side of the manhole body 110 and the inner tube 230 and the outer tube 250 are installed on the upper part of the manhole body 110, The upper ring 220 is installed on the upper part of the upper ring 220, the manhole 120 is installed on the upper part of the upper ring 220 and the filling material 240 is filled between the manhole and the road cut part. The filling material 240 that is filled tightly between the lower ring 210, the inner tube 230, the outer tube 250 and the upper ring 220 is controlled in the vertical and horizontal directions, So that it acts as a single structure to exert a very strong strength against impact or vibration due to an external load of a vehicle or the like.

The manhole maintenance structure of the present invention can precisely construct the manhole pillar 120 in accordance with the height of the road surface and can be installed in the upper ring 220, the inner pipe 230, the filler 240, the lower ring 210, 250, etc., so that a higher compressive strength than that of the prior art can be secured, and the strength of the filler 240 can also be ensured to be high, which is excellent in durability. In addition, since the construction is simple, it is easy to construct, so that it can be quickly applied when the existing road surface is covered with overlay or new road.

Hereinafter, a construction method of a manhole maintenance structure according to an example of the present invention will be described in detail with reference to the drawings.

11 is a flowchart showing a construction method of a manhole maintenance structure according to an example of the present invention.

Referring to FIG. 11, a method of constructing a manhole repair structure according to an exemplary embodiment of the present invention includes a step S10 of installing a lower ring 210, a step S20 of installing an internal pipe 230, A step S30 of filling the upper ring 220 with the upper ring 220, a step S40 of installing the upper ring 220, and a step S50 of installing the manhole ream 120.

In the step S10 of installing the lower ring 210, a lower ring 210 in the form of a donut is installed on the upper side of the manhole main body 110. The lower ring 210 may be made of cement mortar mixed with cement and fine aggregate or a resin mortar mixed with resin and fine aggregate. In the step S10 of installing the lower ring 210, And applying the adhesive between the lower ring 210. That is, after the manhole body 110 and the lower ring 210 are bonded by applying an adhesive agent between the manhole body 110 and the lower ring 210, or after rough unevenness is formed on the upper side of the manhole body 110, May be applied to further strengthen the bonding.

In step S20 of installing the inner tube 230, an inner tube 230 provided in a ring shape is installed on the inner end of the lower ring 210. [ The height of the manhole maintenance structure is adjusted according to the height of the inner tube 230, and the height of the manhole cover 120 is adjusted from the height of the manhole cover 120 Bear some of the load on the upcoming vehicle. The inner tube 230 may be made of a fiber reinforced plastic (FRP) material. The lower ring 210 and the inner tube 230 may be coupled to each other in a concave and convex structure as described above and the step S20 of installing the inner tube 230 may be performed between the inner tube 230 and the lower ring 210 The lower ring 210 and the inner tube 230 may be bonded to each other by using an adhesive.

The step of filling the filler material 240 may fill the filler 240 between the upper ring 220 and the lower ring 210 to the outside of the inner tube 230. The filling material 240 may be made of cement mortar or resin mortar or the like and may be attached to the outer pipe 250 at the outer end between the upper ring 220 and the lower ring 210 before filling the filling material 240 And a step of installing the image data. The outer pipe 250 is provided at the outer end between the upper ring 220 and the lower ring 210 in the form of a ring having a height as high as that of the inner pipe 230 to fill the filler 240, The lateral deformation of the filler 240 by the upper load is controlled before sufficient curing is achieved. The outer pipe 250 may be made of polyethylene (PE), and the upper ring 220 and the lower ring 210 may be coupled to the outer pipe 250 in a concave-convex structure.

In step S40 of installing the upper ring 220, an upper ring 220 having a donut shape is installed on the upper side of the inner tube 230 and the filler 240. The upper ring 220 can be made of a mixture containing cement and fine aggregate, or a mixture containing resin and fine aggregate. The upper ring 220 and the inner tube 230 may be coupled to each other in a concave and convex structure as described above and the step S40 of installing the upper ring 220 may be performed between the inner tube 230 and the upper ring 220 The upper ring 220 and the inner tube 230 may be bonded to each other by using an adhesive agent.

In step S50 of installing the manhole cover 120, the manhole cover 120 on which the manhole cover 130 is mounted is installed on the upper side of the upper ring 220 by bolts or the like.

In the manhole maintenance structure, the road surface is first excavated, and the construction method is performed step by step in the space formed by excavating the road surface. After the completion of the installation, the excavator around the manhole repair structure is filled with the filler 240 to fix the manhole repair structure.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. Furthermore, the terms "comprises", "comprising", or "having" described above mean that a component can be implanted unless otherwise specifically stated, But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: Manhole body
120: Manhole Reamer
130: Manhole cover
210: Lower ring
220: upper ring
230: internal tube
240: filler
250: outer tube
260: Cap
S10: Step of installing the lower ring
S20: Steps to install internal pipes
S30: Filling the filler
S40: Step of installing the upper ring
S50: Steps to install manhole

Claims (12)

A manhole body; A lower ring provided on the upper side of the manhole body; An upper ring spaced apart above the lower ring; An inner tube disposed at an inner end between the upper ring and the lower ring; A filler filled between the upper ring and the lower ring; And a manhole rebar provided on the upper side of the upper ring.
The method according to claim 1,
The upper ring, lower ring, or filler may be a mixture comprising cement and fine aggregate, a mixture comprising methyl methacrylate (MMA) resin and fine aggregate, a mixture comprising ball saturated polyester resin and fine aggregate, A manhole repair structure made of a mixture comprising a polymeric ester resin and fine aggregate.
The method according to claim 1,
The inner tube is a fiber reinforced plastic (FRP) material.
The method according to claim 1,
And a concave portion on which the inner tube is seated is provided on an upper portion of the lower ring and a lower portion of the upper ring.
The method according to claim 1,
And a convex portion on which the inner tube is seated is provided on an upper portion of the lower ring and a lower portion of the upper ring.
The method according to claim 1,
The upper and lower portions of the upper ring and lower portion of the inner ring are provided with convex portions corresponding to the lower and upper concave portions of the inner tube respectively,
Wherein the convex portion and the concave portion are continuous or intermittent.
The method according to claim 1,
The upper and lower portions of the inner tube are provided with convex portions and the concave portions corresponding to the lower and upper convex portions of the inner tube are respectively provided at the upper portion of the lower ring and the lower portion of the upper ring,
Wherein the convex portion and the concave portion are continuous or intermittent.
The method according to claim 1,
A cement mortar or resin-based adhesive provided between the manhole body and the lower ring, and a resin mortar adhesive provided between the inner tube and the upper ring and between the inner tube and the lower ring.
The method according to any one of claims 1 to 8,
And an outer tube at an outer end between the upper ring and the lower ring.
The method according to any one of claims 4 to 7,
Further comprising a cap between the inner tube and the upper ring or between the inner tube and the lower ring, the cap corresponding to the shape of the recess or the convex portion.
The method for constructing a manhole maintenance structure according to any one of claims 1 to 8,
Installing the lower ring on the upper side of the manhole body;
Installing the inner tube at an upper inner end of the lower ring;
Filling the filler material outside the inner tube;
Installing the upper ring on the inner tube and the filler material;
And installing the manhole rebar on the upper side of the upper ring.
In the construction method of the manhole maintenance structure of claim 9,
Installing the lower ring on the upper side of the manhole body;
Installing the inner tube at an upper inner end of the lower ring;
Providing the outer tube at an upper outer end of the lower ring;
Filling the filler between the inner tube and the outer tube;
Installing the upper ring on the upper side of the inner tube and the outer tube; And
And installing the manhole rebar on the upper side of the upper ring.

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