KR100798219B1 - Sewage pipe joint repair reinforcement method - Google Patents

Abstract

The present invention relates to an improved sewer pipe joint reinforcement construction method for the purpose of improving repair quality and reducing costs when the sewer pipe joint reinforcement is repaired.

Conventional sewage pipe repair process is difficult to fill the cavity in a tight state, the reinforcing effect is reduced, to reduce the communication surface of the sewage, as well as to improve the problem of increasing the amount of material is used on the backfill material of the cavity After fixing the number of fasteners, the depth of the cavity is divided into predetermined layers, and then a circular reinforcement composed of a combination of flat reinforcement and reinforcement auxiliary wires is fixed on the fastener using a conventional binding material, and then the space containing this reinforcement. The mortar filling process was carried out step by step a predetermined number of times to the inner finishing surface of the sewer pipe, and then the interior finishing surface of the sewer pipe was finished to finish the repair. , The combination of the planar reinforcement and reinforcement auxiliary wire Instead of the circular reinforcement consisting of a preferred embodiment by adding a flat planar reinforcement, circular reinforcement of the circular, three-dimensional reinforcement of the circular configuration by using a three-dimensional reinforcement of the circular, respectively, the mortar does not flow in the cavity, as well as reinforcement It is expected to increase the reinforcing effect by using and not to reduce the passage surface of sewage, but also to reduce the cost by reducing the amount of material used.

Description

Sewage pipe joint repair reinforcement method

1 is a schematic view illustrating the present invention applied to the reinforcement of sewage pipe joints.

2 is an enlarged cross sectional view of the first preferred embodiment of the present invention with respect to FIG.

3 is a cross-sectional view according to the section B-B of FIG. 2.

4 is an enlarged cross sectional view of a second preferred embodiment of the present invention with respect to FIG.

FIG. 5 is a cross sectional view taken along the line C-C in FIG. 4; FIG.

6 is an enlarged cross sectional view of a third preferred embodiment of the present invention with respect to FIG.

FIG. 7 is a cross sectional view taken along the line D-D of FIG. 6; FIG.

8 is an enlarged cross sectional view of a fourth preferred embodiment of the present invention with respect to FIG.

9 is a cross sectional view taken along the line E-E of FIG. 8;

※ Explanation of code for main part of drawing

1: backfill 3: manhole

5: sewer pipe 7: sewer pipe joint

9: cavity 11: fixing material

13, 13 ': flat reinforcement 15, 15': reinforcement auxiliary wire

17: binding material 19: mortar

21: Construction joint 22: Interior finishing surface                 

23, 23 ': Lap joint 25, 25': Reinforcement wire

27, 27 ': solid reinforcement

The present invention relates to an improved sewer pipe joint repair reinforcement method for the purpose of improving the quality of repair and reducing the cost when repairing the sewer pipe joint.

In general, sewer pipes buried beneath underground roads are likely to have an uneven settlement due to the vibration or impact load of heavy vehicles passing through the roads, and during flooding, the cavities gradually expand due to the scour of backfill material in sewer pipe joints. By neglecting or delaying maintenance, including maintenance, for the scour cavity of the joint, longitudinal cracking occurs from the upper end of the joint, and the sewer pipe is gradually damaged, resulting in a shortening of the life of the sewer pipe.

As described above, in order to repair and reinforce the cavity of the sewer pipe joint, the application of the non-excavation repairing method for repairing the ground without digging is gradually being applied, and the conventional sewage pipe repairing method mainly applied in the field is applied. First, in the case of filling using only inorganic mortar containing cement or organic mortar containing resin in the cavity of the sewer pipe joint, mortar flows down to the upper part of the sewer pipe when the mortar is filled. Although it is very difficult to fill and even tightly filled, it is necessary to reinforce the additional strength by reducing the reinforcing effect because it consists only of mortar itself without reinforcing material. Secondly, in the case of non-excavation partial repair method mainly for sewer pipe joints Mall aimed at the joint Repair or reinforcement with mortar, wire mesh reinforced mortar, FRP lining or stainless steel plate to protrude to the inside of sewage pipe with predetermined thickness and width with or without filling Since the passage surface of the sewage is reduced to reduce the passage surface that can pass the sewage during flooding, there is a problem that the amount of material used increases.

The present invention was conceived to correct the above-mentioned conventional problems, and was configured as follows.

After performing the water-turning work on the section subject to the sewage pipe repair, and basically cleaning the base surface of the joint, the fixing material including a predetermined amount of fixing anchors from the inner surface of the sewage pipe to the outside on the back filling material of the cavity. The fixing member is fixed by fixing the fixing member in a state of being punched or drilled by a conventional hammer, and the fixing member corresponding to the middle part of the cavity divided into the first layer from the outside of the cavity after dividing the depth of the cavity into a predetermined layer. A circular reinforcement consisting of a combination of flat reinforcement wires or flat reinforcement wires with perforated plates and reinforcement auxiliary wires with reinforcing bars is fixed on the reinforcement using a binding material containing a normal tie line, and the first including this reinforcement. Fill the mortar with the cavity of the first layer.

The combination of the planar reinforcement and reinforcing auxiliary wire on the fixing material corresponding to the middle part of the cavity divided into the second layer on the fixing material protruding on the construction joint of the first layer mortar constructed as described above. The circular reinforcement is fixed using a conventional binding material, and then stepped up to a predetermined number of times to the internal finishing surface of the sewer pipe by filling the mortar for the cavity of the second layer including this reinforcement, and then on both sides of the inner surface of the sewer pipe. The inner finishing surface on the line connecting the end is plastered to finish, and the joint of the sewage pipe can be repaired in whole or in part.

Here, three preferred embodiments of the reinforcement were added, and in the first embodiment, instead of the circular reinforcement composed of a combination of the planar reinforcement and the reinforcing auxiliary wire, a planar reinforcement of the circular shape including a flat reinforcing wire mesh or perforated plate was used. Method is a method of fixing using a conventional binding material at a predetermined position on the fixing material, the second embodiment is a circular reinforcing wire including a reinforcing bar instead of a circular reinforcement consisting of a combination of a flat reinforcement and a reinforcing auxiliary wire Is a method of fixing using a conventional binding material at a predetermined position on the fixing member, the third embodiment is a circular including a three-dimensional reinforcing wire mesh or perforated plate instead of the circular reinforcement consisting of a combination of the planar reinforcement and reinforcing auxiliary wire The three-dimensional reinforcement of the top of the As a method of fixing using conventional binding material, and adapted to the method, each filled with mortar, after a predetermined fixed thickness, separated by a predetermined floor and then finally plastering to end the closed inner surface.

The configuration and operation of the present invention will be described in detail with reference to the accompanying drawings in detail.

The water drainage pipe 5 to be repaired located between the manhole 3 and the manhole 3 is basically subjected to water turning in a conventional manner, which is not separately indicated in the drawings, and the sewer pipe joint 7 is separately indicated on the drawing. Use a non-standard wire brush to clean up the dirt or use a combination of high pressure cleaning to clean the surface.

After the base surface cleaning operation is performed, the fixing member 11 including a predetermined number of fixing anchors in an outward direction from the inner surface of the sewer pipe 5 on the back filling material 1 of the cavity 9 is separately indicated on the drawing. After drilling using a conventional hammer, or drilling using a drill, and then injecting a conventional mounting chemical into the drilling hole, and then inserting the fixing material 11 to the length of the fixing material 11 is the inner finishing surface (22) Secure to within

After fixing the predetermined amount of the fixing member 11, the depth of the cavity 9 is divided into predetermined layers, and then the cavity of the cavity separated into the first layer from the outside of the cavity 9 on the fixing member 11 is formed. Repair the circular reinforcement consisting of the planar reinforcement (13, 13 ') including the planar reinforcing wire mesh or perforated plate and the reinforcing auxiliary wire (15, 15') including the reinforcing bar on the fixing member 11 corresponding to the middle part Conventional binding material 17 including a tie line after installation to have a lap joint 23, 23 ′ of a predetermined length within a range larger than the diameter of the target sewer pipe 5 and smaller than the outer diameter of the cavity 9. ), And then fill the mortar (19) using the usual manual plastering or spraying equipment for the space of the first layer, including this reinforcement, unless otherwise indicated in the drawing.

Planar reinforcement on the fixing member 11 corresponding to the middle portion of the cavity divided into the second space portion on the fixing member 11 protruding from the construction joint 21 of the first layer mortar 19 constructed as described above A circular reinforcement consisting of a combination of (13, 13 ') and reinforcement auxiliary wires (15, 15') is fixed using a conventional tie (17) and then covered the cavity of the second layer, including this reinforcement. Step by step a predetermined number of times to the internal finishing surface 22 of the sewage pipe 5 in a manner to fill the mortar (19) by the linear internal finishing surface 22 to connect both ends of the inner surface of the sewer pipe (5) Plastering and finishing was done, and the sewage pipe joint (7) was configured to be able to reinforce and repair the whole or part.

Here, in addition to the circular reinforcement consisting of a combination of the planar reinforcement (13, 13 ') and the auxiliary auxiliary wires (15, 15') for reinforcement, three more preferred embodiments were added. Instead of circular reinforcement consisting of a combination of planar reinforcement (13, 13 ') and reinforcement auxiliary wires (15, 15'), it is used by replacing with planar reinforcement (13, 13 ') including a flat reinforcement mesh or perforated plate. As a method of fixing the flat reinforcement (13, 13 ') using a conventional binding material (17) at a predetermined position on the fixing material (11), the method of using the flat reinforcement (13, 13') Silver is supposed to be included in the same range as the circular reinforcement composed of the combination of the planar reinforcement 13 and 13 'and the auxiliary auxiliary wires 15 and 15' for reinforcement.

Further, in the second embodiment, circular reinforcement wires 25 and 25 'including reinforcing bars instead of circular reinforcement parts composed of a combination of planar reinforcement materials 13 and 13' and reinforcement auxiliary wires 15 and 15 'are provided. As a method of replacing and using, the circular reinforcing wires 25 and 25 'were fixed using a conventional binding material 17 at a predetermined position on the fixing material 11.

On the other hand, in the third embodiment, instead of the circular reinforcement composed of the combination of the planar reinforcement 13, 13 'and the auxiliary reinforcing wires 15, 15', the three-dimensional reinforcement of the circular shape including a three-dimensional reinforcing wire mesh or perforated plate (27) And 27 '), it was configured to fix the circular three-dimensional reinforcement materials 27 and 27' using a conventional binding material 17 at a predetermined position on the fixing material 11 as a method to be used.

As described above, each of the reinforcing materials are divided into predetermined layers and fixed on the fixing member 11, and then, each of the mortars 19 having a predetermined thickness is filled, and finally, the inner finishing surface 22 is plastered to repair the sewer pipe joint. It was configured to end, and each of the reinforcement was to be applied in the same way, including a round, square, horseshoe.

As described above, in the case of a method of filling a joint using only mortar in the cavity of a sewer pipe joint, the conventional joint repairing method is very difficult to fill the cavity in a closed state with the mortar flowing down and is reinforced by being composed only of mortar itself without reinforcing material. The effect is reduced, and in the case of the non-excavation partial repair method mainly for sewer pipe joints, the repair material is projected to a predetermined thickness and width on the inner surface of the sewer pipe to be repaired. In order to improve the problem of not only reducing the passage surface through which water can pass, but also increasing the amount of material used, water is returned to the sewage pipe repaired section, and the background surface is cleaned on the joints. The fixing material is fixed and the depth of the cavity is formed in a predetermined layer. After that, the circular reinforcement composed of the combination of flat reinforcement and reinforcement auxiliary wire is fixed on the fixing material by using a normal binding material, and then filling the mortar for the cavity including the reinforcement material to the internal finishing surface of the sewer pipe. After performing step by step over a number of times, the inner finishing surface of the line connecting the both ends of the sewage pipe was configured to finish and finished, instead of the circular reinforcement consisting of a combination of the planar reinforcement and reinforcing auxiliary wires preferred embodiment In addition, by using circular flat reinforcement, circular reinforcement, and circular three-dimensional reinforcement, the mortar does not flow in the cavity and is filled in a tight state, as well as increase the reinforcement effect by using the reinforcement and repair of sewer pipes. Repair material protrudes inside the target area Even if not to reduce the amount of water flow it does not reduce the cross-section of the material, as well as sewage effects that can reduce costs is expected.

Claims (4)

In repairing and strengthening the joints of sewage pipes, Fixing the fixing material outward from the inner surface of the sewer pipe on the backfill material of the sewer pipe joint cavity; After fixing the fixing material on the backfill material, the depth of the cavity is divided into a plurality of layers, and then the planar reinforcement and the reinforcement on the fixing material corresponding to the middle part of each cavity part divided step by step from the outside of the cavity part. A process of fixing one of the reinforcement or the planar reinforcement composed of a combination of auxiliary wires for fastening using a binding material, After fixing one of the reinforcement or the planar reinforcement composed of the combination of the planar reinforcement and the reinforcement auxiliary wire by the layer of the cavity by using the binding material, each cavity divided by the layer including the fixing material and the reinforcement is targeted. Filling the mortar from the outside of the cavity stepwise to the inner finishing surface, After filling the mortar up to the inner finishing surface, repair and reinforcement method of the sewer pipe joint, characterized in that consisting of the process of plastering the inner finishing surface of the mortar. delete The method of claim 1, The process of fixing one of the reinforcement or planar reinforcement composed of a combination of the planar reinforcement and the reinforcement auxiliary wire on the fixing material by using the binding material is configured to be replaced to fix the reinforcing wire material using the binding material on the fixing material. Sewage pipe joint repair reinforcement method characterized by the above-mentioned. The method of claim 1, The process of fixing one of the reinforcement or planar reinforcement composed of a combination of the planar reinforcement and the reinforcement auxiliary wire on the fixing material by using the binding material is configured to be substituted to fix the three-dimensional reinforcement using the binding material on the fixing material. Sewage pipe joint repair reinforcement method characterized by the above-mentioned.

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