KR102298267B1 - Precast culvert blocks for underground power cable conduits - Google Patents

Abstract

According to the present invention, provided is a precast culvert block for underground power cable conduits. In regard to the constitution of hollow box-shaped precast culvert blocks consecutively combined in one direction to form an underground power cable conduit during a construction procedure in a construction site, on joint surfaces of the culvert blocks connected with each other, joint grooves are formed to support a water cutoff member inserted between the joint surfaces by mortar filling during the culvert block connection procedure, wherein after the construction of the underground power cable conduit, in order to prevent the mortar forming the connection part of the culvert blocks and hardened in the joint grooves from departing from the joint grooves due to differential settlement or the like, on the inside of the joint grooves, a steel anchorage device is integrated and inserted to fix the mortar filling the joint grooves, thereby suppressing the departure of the mortar hardened in the joint grooves through mortar hardened in the steel anchorage device, and, as a result, the watertightness of the underground power cable conduit buried under the ground can be effectively improved through the water cutoff member inserted between the joint surfaces and the mortar filling the joint grooves.

Description

Precast culvert blocks for underground power cable conduits}

The present invention relates to a precast culvert block for an underground power tool, and more particularly, in constructing a hollow box-type precast culvert block that is continuous and combined in one direction to form an underground power tool during the construction process of a construction site, connected to each other On the joint surface of the culvert block to be used, a joint groove is formed to support the water stop member inserted between the joint surfaces by mortar filling during the connection process of the culvert block, but after the underground electric power tool construction, the connection part of the culvert block is formed, In order to prevent the mortar filled and hardened in the joint groove from being separated from the joint groove due to uneven settlement, etc., a steel anchorage for fixing the mortar filled in the joint groove is integrally inserted inside the joint groove. Thus, by suppressing the separation of the mortar that is filled and hardened in the joint groove through the mortar that is filled and hardened into the steel anchorage, the underground power tool is buried in the ground through the water stop member inserted between the joint surfaces and the mortar filled in the joint groove. It relates to a precast culvert block for an underground power tool that can effectively improve watertightness.

In complex areas such as downtown or residential areas, to avoid interference with various buildings and urban structures on the ground and at the same time maintain a clean urban environment, power and communication lines such as communication cables and electric cables are mainly laid underground. connecting through

At this time, in order to connect such cable lines through underground burial, underground power cable tunnels mainly composed of concrete structures are buried underground and used as a passage for cable lines.

The underground power outlet provides a passage for cable lines buried underground, and plays a role in safely protecting the cables accommodated inside from the external environment. is a very important factor.

In addition, conventionally, in constructing such an underground electric power sphere, it was common to form the electric sphere by the on-site casting method in which concrete is poured and hardened at the site. And, due to many problems such as traffic inconvenience, noise, and dust that occur as the construction period becomes longer, recently, electric power unit unit units (i.e., precast The construction method of connecting and splicing culvert blocks) on site is mainly used.

However, in the case of the construction method of connecting and joining the culvert blocks manufactured in advance by the precast method in the field, the solid coupling of the joint surfaces between the interconnected culvert blocks is very important in maintaining the soundness of the overall underground power outlet. It acts as a factor, and in the event of an external event such as an earthquake or unequal settlement, it is very important to firmly maintain the bonding of the joint area of the joint surface and to prevent leakage between the inside and the outside of the power sphere through cracks in the joint surface in particular. .

As an example, in Korean Patent Application Laid-Open No. 10-2016-0017961, the junction of the box culverts to be mutually joined in the electric power tool manhole composed of a plurality of box culverts manufactured by the above-described precast method, assembled and installed at the construction site. By inserting a closed water board consisting of a rim having a corrugated hollow part between the faces and plate-like parts extending from it to both sides and finishing with a grout material, the grout material that has been filled and hardened on the joint surface due to external events such as earthquakes or uneven settlement is applied. Even when cracks occur, a structure is introduced that suppresses the inflow of groundwater, etc., into the power sphere through the joint surface by the closed plywood board integrally fixed inside the grout material.

However, as in the above-mentioned patent No. 17961, when a closed cladding board is inserted between the joint surfaces of the box culverts to be joined together and the adjacent box culverts are connected to each other by filling the grout material, the mortar, etc., which is commonly used as a grout material, is a box. As it has a strength similar to or higher than that of the concrete forming the culvert body, it has relatively excellent properties in preventing cracks in the joint when an external event such as an earthquake or uneven subsidence occurs, but is formed on the joint surface during on-site construction. The adhesive force between the grout material filled and hardened in the joint groove and the concrete box culvert body constituting the inner wall of the joint groove shows a relatively weak bonding force. In this case, the grout material filled and hardened in the joint groove of one box culvert is separated from the inner wall of the joint groove and pulled toward the box culvert on the other side and separated from the inner wall, so that groundwater, etc., flows through the gap formed between the grout material and the inner wall of the joint groove. There is a problem that it can be introduced into the water, and this is an important problem that must be solved, especially in underground power outlets in which power cables, which are facilities vulnerable to flooding, are accommodated.

1. Republic of Korea Patent Publication No. 10-2016-0017961 (published date: 2016.02.17.) "Power sphere manhole"

The present invention is to solve the problems according to the prior art described above. In the present invention, in an underground power sphere formed by continuously and combining hollow box-type precast culvert blocks through on-site construction, bonding of culvert blocks connected to each other In the surface, a joint groove is formed to support the water-stop member inserted between the joint surfaces by mortar filling in the process of connecting the culvert block, but after the underground power tool construction, the connection part of the culvert block is formed and the joint groove is filled In order to prevent the hardened mortar from being separated from the joint groove due to uneven settlement, etc., a steel anchorage for fixing the mortar filled in the joint groove is integrally inserted and installed inside the joint groove, and the steel anchorage The purpose of this is to effectively improve the watertightness of an underground electric power outlet that is buried underground and accommodates various electric power facilities by suppressing the separation of the mortar that is filled and hardened in the joint groove through the mortar that is filled and hardened inside.

In the present invention, as a technical idea for achieving the above object, in the culvert block for underground power tools pre-fabricated in a precast type hollow box type, at both ends of the box body constituting the culvert block, the index along the central portion of the body rim A joining groove into which the member is inserted and coupled is formed, and a steel anchorage is integrally inserted and installed inside the joint groove to prevent separation of mortar that is filled and hardened in the joint groove, and an opening is formed on one side of the steel anchorage It provides a precast culvert block for an underground power tool, characterized in that it communicates with the inner space of the joint groove, and is configured to form a cavity having a wider cross-section than the opening in the steel anchorage.

In the present invention, in constructing a hollow box-type precast culvert block that is continuous and combined in one direction in the construction process of a construction site to form an underground power sphere, on the junction surface of the culvert blocks that are connected to each other, mortar in the connection process of the culvert block A joint groove is formed to support the water-retaining member inserted between the joint surfaces by filling, but after the underground power tool construction, the connection part of the culvert block is formed, and the mortar filled and hardened in the joint groove is said to be unequal settlement. In order to prevent separation from the joining groove, a steel anchorage for fixing the mortar filled in the joint groove is integrally inserted and installed inside the joint groove, and the steel anchorage is filled inside the joint groove through the hardened mortar. By suppressing the separation of the mortar that is filled and hardened in the mortar, the water tightness of the underground power outlet that accommodates facilities vulnerable to flooding, such as power cables, through the water-repellent member inserted between the joint surfaces and the mortar filled in the joint groove can be dramatically improved. It works.

1 is a diagram schematically showing the connection relationship between the junctions between precast culvert blocks for underground power fixtures according to an embodiment of the present invention.
Figure 2 is a view for explaining the schematic shape of the closing material inserted into the junction between the precast culvert blocks for underground electric power tool according to an embodiment of the present invention.
3 is a partial cross-sectional view showing a cross-section of a junction between two culvert blocks manufactured in a precast type according to an embodiment of the present invention.
4 is a view showing, as an example, various cross-sectional shapes of the steel anchorage configured by being inserted into the precast culvert block for the underground power tool of the present invention.
5 is a partial cross-sectional view showing a cross-section of a junction between two culvert blocks manufactured in a precast type according to another embodiment of the present invention.
6 is a view showing various examples of the closed plywood board inserted into the junction of the precast culvert block for the underground power tool according to the present invention.

Since the present invention can have various changes and can have various forms, specific embodiments are illustrated in the drawings and described in detail in the text.

However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used in the present application is only used to describe specific embodiments, and is not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification is present, and includes one or more other features or It should be understood that the existence or addition of numbers, steps, operations, components, parts, or combinations thereof does not preclude the possibility of addition.

Hereinafter, a preferred embodiment of the present invention will be described in detail based on the accompanying drawings.

1 is a diagram schematically showing the connection relationship between the junctions between precast culvert blocks for underground power fixtures according to an embodiment of the present invention.

As shown in FIG. 1 , the precast culvert blocks 100 for underground power tools according to the present invention are pre-fabricated in a hollow box shape of the precast type, and through the continuous combination of a plurality of culvert blocks 100 , underground power tools At this time, at both ends of the box body constituting the culvert block 100, a joint groove 110 into which the water index member is inserted and coupled along the central portion of the body rim is formed, and the culvert block 100 is connected to each other. Between the joint grooves 110 of the two culvert blocks to be connected, a closing resin material 200 into which both ends of the body are respectively inserted is interposed, and a plurality of culverts adjacent to each other by filling and hardening the joint grooves 110 with mortar are interposed. Blocks 100 are successively combined to form an underground power sphere.

Figure 2 is a view for explaining the schematic shape of the closed closing material inserted into the junction between the precast culvert blocks for underground electric power equipment according to an embodiment of the present invention, Figure 2 (a) is the overall shape of the closed closing material 2 (b) is a view showing a cross-section taken along the line (A-A') of the closed resin material shown in FIG. 2 (a).

The closing resin material 200 applied to the present invention is made of a material having elasticity, such as PVC to which a softener is applied, and is closed by forming a hollow portion 240 as shown in FIG. Consisting of a stretchable and deformable part 210 made of and a water stop plate 220 extending on both sides of the elastically deformable part 210, as shown in FIG. It is formed in a ring shape corresponding to the cross-sectional shape of the culvert block so that the water stop plate 220 is respectively inserted into the joint grooves 110 formed in each.

At this time, in the water stop plate 220 extending on both sides of the elastic deformation part 210, a plurality of support protrusions 230 to strengthen the bonding force with the mortar filled in the bonding groove and prevent separation of the closing water material and the mortar. ) is formed, and the hollow part 240 formed in the elastically deformable part 210 may have various shapes such as an ellipse or a polygon. .

3 is a partial cross-sectional view showing a cross-section of a junction between two culvert blocks manufactured in a precast type according to an embodiment of the present invention.

As already described above, in forming an underground power tool using the precast culvert block for an underground power tool according to the present invention, the closing water material 200 is inserted between the two culvert blocks 100a and 100b connected to each other, and , by filling the mortar 400 into the joint grooves 110 of the culvert blocks 100a and 100b into which the water stop plate 220 of the closed water stop material 200 is inserted, respectively, and by coupling the two culvert blocks to be connected to each other, precast The underground power sphere in the form of a common tunnel tunnel will be constructed through a construction method in which pre-fabricated culvert blocks are continuously fastened at the construction site.

At this time, in inserting and fastening the closing water material 200 between the two culvert blocks 100a and 100b, the closing water material 200 is fastened by first filling the mortar 400 on one side of the culvert block 100a in advance. After that, at the construction site, one side of the culvert block 100a to which the closing water material 200 is pre-fastened is joined with the other side to which the closing water material 200 is not fastened in the connected culvert block 100b. , by filling and hardening the mortar 400 in the joint groove 110 of the culvert block 100b to be joined, the box-type culvert blocks 100 pre-fabricated in the precast type are continuously connected and joined to form a long tubular power It is common to form a sphere.

Here, the culvert block manufactured in the precast type according to the present invention, as shown in FIG. 3, is filled in the bonding groove inside the bonding groove 110 formed in the culvert block 100a, 100b and is hardened. The steel anchorage 300 is integrally inserted and installed to prevent the mortar from coming off, and at this time, the steel anchorage 300 has an opening 310 formed on one side to communicate with the joint groove internal space, and the steel anchorage 300. A cavity 320 having a larger cross section than the opening 310 is formed therein.

In the precast culvert block according to the present invention having such a configuration, in the step of manufacturing the culvert block in a precast type, a steel anchorage ( After connecting 300), when the culvert block is manufactured through concrete pouring and curing, by releasing the fastened bolt coupling and dismantling the finishing formwork, the steel anchorage 300 is integrally inserted into the joint groove 110. It is possible to form a precast culvert block provided.

At this time, the steel anchorage 300 has a fastening bar that crosses the opening along the opening 310 of the steel anchorage 300 for fastening with the shear key part of the finishing form as described above in the manufacturing process of the culvert block. (bar) (not shown) provided at regular intervals, or at both ends of the opening 310, as shown in FIG. It can be configured so that bolt fastening and disassembly can be made through the side surface of the shear key, and preferably, the shear key side of the finishing formwork through the fastening parts 330 formed at both ends of the opening 310, as in FIG. 3 described above. The construction to be fastened with the steel anchorage 300 forms the entire opening 310 in an open form, so that the water stop plate 220 of the closing water material 200 interposed between the two culvert blocks is a joint groove. (110) By supporting the insertion to the inside of the cavity 320 inside the steel anchorage 300 through the inside, it is effective to maintain the coupling structure between the two culvert blocks more firmly.

In addition, in FIG. 3 described above, the steel anchorage 300 provided on the inside of the joint groove 110 shows an example in which the inner cavity 320 having a rectangular cross-section is provided, but the steel material applied to the present invention The anchorage 300 is not limited to such a shape, and as shown in FIGS. 4 (a) to (c), if the shape can form a cross-section wider than the opening 310, polygonal, circular, or oval. Of course, it may be configured to form an internal cavity of various types, such as.

Through such a configuration, the precast culvert block for underground electric power equipment according to the present invention is interposed between the closing water material 200 between the joint grooves 110 of two adjacent culvert blocks, By placing both water stop plates 220 to be inserted into the joint groove 110 of the adjacent culvert block, respectively, and then fill and harden the joint groove 110 with mortar 400 . The fastening between the two culvert blocks is completed, and at this time, the support protrusions 230 formed on the water stop plates 220 on both sides of the closed seal material 200 strengthen the bonding force between the closed seal material 200 and the mortar filled in the joint groove. , it suppresses separation of waste resin material and mortar.

In addition, the mortar 400 filled into the joint groove 110 in the connection process of the precast culvert block for the underground power tool according to the present invention, the inner cavity of the steel anchorage 300 communicating with the joint groove 110 internal space It is filled together in the 320 and solidified to fix the bonding site, and at this time, the opening 310 formed with a narrower area than the cross-section of the internal cavity 320 acts as a stumbling block, such as earthquake or uneven settlement. Even when the neighboring culverts are spread outward due to an external event, the strength against cracks is relatively good by suppressing the mortar filled in the junction groove from leaving the junction groove, but The situation in which groundwater flows into the power outlet through the gap formed between the mortar and the inner wall of the joint groove due to separation and separation of the mortar filled in the joint groove by effectively compensating for the disadvantage of the filling mortar, which has relatively weak adhesion to concrete. can be fundamentally blocked.

In addition, in the precast culvert block for an underground power tool according to the present invention, among the two culvert blocks 100a and 100b connected to each other, the water expansion index material 130 made of a stretchable water stop plate on the edge of both ends of the joint surface of the culvert block 100a on one side. ), it can be configured to complement the watertightness between the bonding surfaces of the two culvert blocks (100a, 100b).

Through such a configuration, in the underground power tool to which the precast culvert block for the underground power tool according to the present invention is applied, the closing water material is inserted into the junction surface between the two interconnected culvert blocks to prevent the inflow of running water, and the closing In the joint structure of the joint consisting of mortar that fixes and fastens two adjacent culvert blocks while fixing the water stop material, cracks in the mortar that may be caused by external events such as earthquakes or differential settlement, or filling the joint surface of the culvert block By effectively preventing the inflow of runoff due to separation of mortar, it is possible to dramatically improve the watertightness of underground power outlets, which are mainly accommodated by facilities vulnerable to flooding such as power cables.

5 is a partial cross-sectional view showing a cross-section of a junction between two culvert blocks manufactured in a precast type according to another embodiment of the present invention.

In FIG. 3 above, at both ends of the box body constituting the culvert blocks 100a and 100b manufactured in the precast type, the joint grooves 110 in which the steel anchorage 300 is inserted are formed respectively, The structure for fastening the two culvert blocks through mortar filling by inserting the both side water stop plates 220 formed in 200 into the joint grooves 110 formed in each culvert block 100a, 100b has been described, but in the present invention The precast culvert block for underground power fixtures is not necessarily limited to the structure of FIG. 3 described above.

That is, as shown in FIG. 5, the precast culvert block for underground power outlets according to the present invention. The junction surface of one end of the box body constituting the culvert block is integrally provided with a closed water stop material 200 in the form of one side water stop plate inserted into the junction surface, and the other junction surface of the box body has the same as in the case of FIG. 3 above. By configuring the same bonding groove, the bonding surface of the culvert block 100d provided integrally with the closing water material 200 and the bonding surface of the other culvert block 100c in which the bonding groove 110 is formed are mutually bonded and fastened. It can also be configured, and even in this case, the configuration of the coupling between the two culvert blocks, the fixing structure or the mortar filling and the water expansion index material 130 formed on the edge of the joint surface is applied in the same way as in the case of FIG. 3 above. A detailed description thereof will be omitted.

In addition, in the above embodiment, only the case where the hollow part formed in the expansion and contraction part provided in the closing resin material applied to the present invention has an elliptical shape, the shape of the hollow part formed in the expansion and contraction part is shown in FIG. As shown, it may be made in various shapes such as an oval (a), a square (b) or a step-like (c), and of course it may also be made in a wrinkled shape (not shown) having a plurality of curves, etc. .

As described above, the precast culvert block for an underground power tool according to the present invention supports the water stop member inserted between the joint surfaces by mortar filling in the connection process of the culvert block on the joint surface of the culvert block to be connected to each other. In order to prevent the mortar filling and hardened by forming the connection part of the culvert block after the underground electric power outlet construction and filling the joint groove from leaving the joint groove for reasons such as uneven settlement, the joint groove of Inside, by inserting and installing a steel anchorage for fixing the mortar filled in the joint groove integrally, and suppressing the separation of the mortar that is filled and hardened in the joint groove through the mortar filled and hardened inside the steel anchorage, between the joint surfaces The watertightness and durability of the subterranean electric power outlets, which are mainly accommodated in flood-vulnerable facilities such as power cables, are improved by strengthening the watertightness of the connection part of the culvert box constituting the underground electric power outlet through the water-repellent member inserted in the can be dramatically improved.

In addition, the above-mentioned precast culvert block is equally applied not only to the underground power sphere in which the power cable is accommodated, but also to various types of common pits or waterway culverts buried underground. Of course you can.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

100, 100a, 100b, 100c, 100d : Culvert block
110: joint groove 130: water expansion index material
200: closed resin material 210: elastic deformation part
220: index plate 230: support projection
240: hollow 300: steel anchorage
310: opening 320: cavity
330: fastening part 400: mortar

Claims (8)

In the pre-cast type hollow box type culvert block for underground power tool,
At both ends of the box body constituting the culvert block, joint grooves are formed along the central portion of the body rim into which the water-stopping member is inserted and coupled,
A steel anchorage is integrally inserted and configured to prevent separation of the mortar that is filled and hardened in the joint groove on the inside of the joint groove,
An opening is formed on one side of the steel anchorage to communicate with the inner space of the joint groove,
A cavity having a cross section wider than the opening is formed inside the steel anchorage,
At both ends of the opening of the steel anchorage,
Precast culvert block for an underground power tool, characterized in that fastening portions extending forward from both ends of the opening are respectively formed for interconnection with the finishing formwork used in the pre-production process of the culvert block.
In the pre-cast type hollow box type culvert block for underground power tool,
At one end of the box body constituting the culvert block, one end is provided with a closed sealing material integrally connected to the box body along the central portion of the body rim, and at the other end, along the central portion of the body edge, the closed sealing material formed in the neighboring culvert block. A joint groove into which the other end is inserted and coupled is formed,
A steel anchorage is integrally inserted and configured to prevent separation of the mortar that is filled and hardened in the joint groove on the inside of the joint groove,
An opening is formed on one side of the steel anchorage to communicate with the inner space of the joint groove,
A cavity having a cross section wider than the opening is formed inside the steel anchorage,
At both ends of the opening of the steel anchorage,
Precast culvert block for an underground power tool, characterized in that fastening portions extending forward from both ends of the opening are respectively formed for interconnection with the finishing formwork used in the pre-production process of the culvert block.
delete 3. The method of claim 1 or 2,
The cavity formed in the interior of the steel anchorage,
Precast culvert block for underground power tool, characterized in that it is formed to have a polygonal, circular or elliptical cross section.
3. The method of claim 2,
The waste resin material,
A precast culvert block for an underground power tool, characterized in that it consists of an expansion/contraction part that forms a hollow part and is formed in a closed shape, and a water stop plate extending on both sides of the expansion/contraction part, respectively.
6. The method of claim 5,
Precast culvert block for an underground power tool, characterized in that a plurality of supporting projections are protruded from the water stop plate.
6. The method of claim 5,
The hollow part formed in the elastic deformation part,
Precast culvert block for an underground power tool, characterized in that it is formed to have a cross section of an oval, square, stepped or corrugated shape.
3. The method of claim 1 or 2,
At one end of the box body constituting the culvert block,
A precast culvert block for an underground power tool, characterized in that a water-expandable water-repellent material made of a stretchable water stop plate is provided at both ends of the body edge constituting the joint surface.

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