KR102376999B1 - Waterproof device of standpipe for wiring underground power cable - Google Patents

Abstract

The present invention discloses a waterproofing device for a standing pipe that secures waterproofing performance for an underground cable laid in a standing pipe and simplifies the assembly structure between the waterproofing structure and the underground cable, thereby making installation of the underground cable more convenient.
The waterproofing device for the above-described riser pipe includes a split body portion fixed to the riser pipe and divided into parts for assembly, a receiving groove formed in the split body portion to install an underground cable, and fastening means for coupling the split body portion. Equipped with

Description

Waterproof device of standpipe for wiring underground power cable}

The present invention relates to a waterproofing device for a standing pipe for wiring underground cables, and more specifically, to a waterproofing device for a standing pipe for wiring underground cables that can ensure waterproofing performance for underground cables installed in the standing pipe. It's about.

Generally, the connection between overhead distribution lines distributed through electric poles and underground distribution lines distributed along underground spaces is implemented through the installation of riser pipes.

Figure 1 is a diagram illustrating a state in which a riser pipe is installed on an electric pole for connection between a conventional overhead distribution line and an underground distribution line.

Referring to FIG. 1, the overhead distribution line 12 laid on the electric pole 10 involves the installation of an underground distribution line (not shown) and an underground cable 16 laid along the buried structure 14 located underground. It consists of a structure that is connected through.

In this case, the underground cable 16 extends downward through the cable riser 18 located at the top of the electric pole 10, and is then inserted into the internal space of the electric pole 10 to connect the buried structure 14 located underground. It is excreted in a structure that extends towards the

In addition, the underground cable 16, which is distributed underground along the inner space of the electric pole 10, is introduced into the interior of the buried structure 14 through the conduit 14a, and then enters the underground space established by the buried structure 14. It is a structure that is excreted along the wiring path.

However, in the conventional structure as described above, waterproofing measures are required for the area where the underground cable (16) is inserted from the outside of the electric pole (10) into the space located inside. However, if complete waterproofing is not guaranteed due to insufficient waterproofing construction for the space between the cable and the rising pipe, water droplets falling on the surface of the underground cable (16) during rainy weather will pass through the internal space of the electric pole (10) and be buried. Since it moves to the internal space of the structure 14, problems such as flooding occur inside the buried structure 14.

Above all, the flooding inside the buried structure 14 caused by the above problems causes the water tree phenomenon, which causes damage to the insulator of the underground distribution line, so a fundamental countermeasure against this is required. This is required.

Registered Utility Model No. 20-0222355

The technical problem to be solved by the present invention is to provide a waterproofing device for a standing pipe for wiring an underground cable that can secure waterproofing performance for the underground cable distributed in the standing pipe through the installation of a waterproofing structure inside the standing pipe. .

Another technical problem to be solved by the present invention is to simplify the assembly structure between the waterproof structure installed inside the riser pipe and the underground cable, thereby providing an entrance for wiring the underground cable, which makes it easier to install the underground cable. The purpose is to provide a waterproofing device for superiors.

The present invention to solve the above technical problems is a waterproofing device for a standing pipe for wiring underground cables, which includes a split body fixed to the riser pipe and divided into parts for assembly, and formed on the divided body to be used in underground water. It is provided with a receiving groove for installing a cable, and a fastening means for combining the split body portion.

In an embodiment of the present invention, the split body portion has a cut surface disposed in the same direction as the installation direction of the underground cable, and the fastening means includes a perforated hole formed in a direction intersecting the cut surface, and It is preferably composed of a bolt member and a nut member that are inserted into the drilled hole and fastened.

An embodiment of the present invention further includes a hollow adapter that is mounted in the receiving groove and supports the underground cable by inserting it therein, and the adapter is configured to have an inner diameter that matches the outer diameter of underground cables of various standards. desirable.

An embodiment of the present invention is mounted on the receiving groove and supports the underground cable by inserting it therein, and further includes a hollow multi-stage structure having penetration parts of different diameters therein, and the penetration parts are configured to support underground cables of various specifications. It is desirable to have an inner diameter that matches the outer diameter of the cable.

An embodiment of the present invention is a waterproofing device for a riser pipe for wiring underground cables, comprising a cover member installed on the riser pipe and having a plurality of insertion holes for installation of underground cables, and a cover member coupled to the insertion hole of the cover member. It is provided with a hollow multi-stage structure with penetrating parts of different diameters inside, and the penetrating parts are configured to have an inner diameter that matches the outer diameter of underground cables of various standards.

In an embodiment of the present invention, the penetrating portion is arranged along the same direction as the installation direction of the underground cable with respect to the multi-stage structure, and the penetrating portion has a layered structure in the vertical direction and is arranged sequentially in order of diameter size. It is preferable that the smallest body portion of the multi-stage structure, which has a penetrating portion with the smallest diameter inside, be closed by a solid plug.

In an embodiment of the present invention, the cover member and the multi-stage structure each have a cut portion that bisects the member in the same direction as the installation direction of the underground cable, and each member divided by the cut portion is provided with a locking structure. The cover member and the multi-stage structure are coupled through a locking structure, and the cover member preferably has a hinge member installed at a location opposite to that of the locking structure centered on the cut portion.

The waterproofing device for a standing pipe for wiring an underground cable according to an embodiment of the present invention consists of a waterproofing structure installed inside the standing pipe as a hollow split body portion that is in close contact with the outer peripheral surface of the underground cable and is easy to join, It is possible to guarantee waterproof performance for underground cables distributed in the standing pipe.

In addition, the split body part applied to one embodiment of the present invention improves the waterproofing performance for underground cables distributed in the riser pipe through the additional installation of a hollow adapter having an inner diameter that matches the outer diameter of underground cables of various standards. It allows us to improve further.

A waterproofing device for a standing pipe for wiring an underground cable according to another embodiment of the present invention has a waterproofing structure installed inside the standing pipe having penetration parts of different diameters inside and a hollow multi-stage structure that is in close contact with the outer peripheral surface of the underground cable. By configuring it with a structure, it is possible to guarantee waterproofing performance for underground cables distributed in the riser pipe.

In addition, the multi-stage structure applied to another embodiment of the present invention has a structure in which the diameter of the penetrating part is different from the smallest body portion to the largest body portion, allowing field installation of underground cables having outer diameters of various standards. By making it more simple to perform, it makes the wiring work of underground cables to riser pipes easier.

The waterproofing device for a riser pipe for wiring underground cables according to an embodiment of the present invention can simplify the assembly structure between the waterproofing structure installed inside the riser pipe and the underground cable, so that the underground cable can be secured through the installation of the riser pipe. Since excretion work can be performed more easily, the efficiency of installation work can be increased.

Figure 1 is a diagram illustrating a state in which a riser pipe is installed on an electric pole for connection between a conventional overhead distribution line and an underground distribution line.
Figure 2 is a diagram showing the state of use of the waterproofing device for the riser pipe for wiring underground cables according to the first embodiment of the present invention.
Figure 3 is an enlarged perspective view showing only the split body part of the water-proofing device for the riser pipe shown in Figure 2.
Figure 4 is an exploded perspective view for explaining the configuration of the split body shown in Figure 3.
FIG. 5 is a diagram illustrating the use state of an adapter that can improve waterproof performance by being separately assembled for the split body portion shown in FIGS. 2 and 3, respectively.
Figure 6 is a diagram showing the state of use of the waterproofing device for the riser pipe for wiring underground cables according to the second embodiment of the present invention.
Figure 7 is an enlarged perspective view showing only the multi-stage structure separated from the waterproofing device for the stand pipe shown in Figure 6.
Figure 8 is an enlarged perspective view of the waterproofing device for the granular pipe shown in Figure 6, with only the cover member removed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached illustration drawings. In this process, the thickness of lines or sizes of components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification. In addition, the examples below do not limit the scope of the present invention, but are merely illustrative of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and constitute the scope of the claims. Embodiments that include elements that can be replaced as equivalents may be included in the scope of the present invention.

Figure 2 is a diagram showing a state of use for a waterproofing device for a standing pipe for wiring underground cables according to an embodiment of the present invention, and Figure 3 is a view showing a split body portion of the waterproofing device for a standing pipe shown in Figure 2. It is an enlarged perspective view with only the parts separated, and Figure 4 is an exploded perspective view for explaining the configuration of the split body shown in Figure 3.

Referring to Figures 2 to 4, the standing pipe waterproofing device according to the first embodiment of the present invention includes a standing pipe (20) installed on the side of the electric pole (10), assembled to the standing pipe (20), and installed inside the standing pipe (20). It is configured to include a split body portion 30 for receiving and mounting the underground cable 16, and fastening means 40 for coupling the split body portion 30.

The riser pipe 20 is fixedly installed to surround the outside of the underground cable 16 on the side of the electric pole 10, and connects the underground cable 16 from the outside of the electric pole 10 to the space located inside the electric pole 10. ) It is configured to set a path to guide the inflow of the underground cable (16) and also to protect the inlet path of the underground cable (16) from the outside.

The split body portion 30 is a member that can be assembled on the upper part of the granular pipe 20, and has a structure in which it is divided into a plurality of members and combined into a single member. In particular, it is preferable that the split body portion 30 is made of a soft silicone-based synthetic rubber material that has elasticity, durability, and insulation properties.

In addition, the split body portion 30 is integrally provided with a receiving groove 30a which is concavely formed inside as a space for installation of the underground cable 16. In this case, it goes without saying that the size of the receiving groove (30a) is set to tightly accommodate the outer peripheral surface of the underground cable (16) in the assembled state of the split body portion (30).

In addition, the split body portion 30 is provided with a cut surface 32 for division into a plurality of members, and the cut surface 32 is contacted and coupled to the corresponding member for each piece member. It is formed for. In this case, it would be desirable for the cut surface 32 to be arranged along the same direction as the installation direction of the underground cable 16.

The fastening means 40 combines the divided body portions 30, which are divided into a plurality of members, into a single member with respect to the granular pipe 20, and has a drilled hole 42 penetrating the member. Equipped with In this case, the drilling hole 42 is preferably formed in a direction that intersects the cut surface 32 of the split body 30, which improves the binding force to the split body 30. This is to do so.

Additionally, the fastening means 40 may be composed of a bolt member inserted into the drilled hole 42. In this case, the fastening means 40 further includes a nut member 44 that maintains the coupling force to the split body portion 30 through fastening with the bolt member.

FIG. 5 is a diagram illustrating the use state of an adapter that can improve waterproof performance by being separately assembled with respect to the split body portion shown in FIGS. 2 and 3, respectively.

Referring to Figure 5, the vertical pipe waterproofing device according to the first embodiment of the present invention is mounted on the receiving groove (30a) of the split body portion (30) and supported by inserting the underground cable (16) therein. It further includes a hollow adapter 50. In this case, it would be desirable for the adapter 50 to be made of a synthetic rubber-type material that has both elasticity and durability.

In addition, the adapter 50 is configured to have an inner diameter that matches the outer diameter of the underground cable 16 of various standards. For example, the adapter 50 may be made of a hollow structure capable of accommodating various types of underground cables 16 with cross-sectional dimensions of 60 mm ² , 200 mm ² , and 325 mm ² . In other words, the standard for the inner diameter of the adapter 50 is set to a size that appropriately matches the outer diameter of various types of underground cables 16.

In addition, as shown in FIG. 5, the adapter 50 can be used by assembling adapters with different inner and outer diameters by sequentially inserting them according to their sizes. However, in this case, it goes without saying that the inner diameter and outer diameter of each adapter 50 are set to a size that allows mutual insertion assembly.

In addition, among the adapters 50, a solid plug is inserted into the adapter with the smallest inner diameter to close the inner diameter area to block the inflow of foreign substances.

Meanwhile, the outer diameter of the adapter 50 is set to match the receiving groove 30a of the split body 30, and then the inner diameter is individually manufactured to match the specifications of the underground cable 16, thereby forming the split body. The underground cable 16 may be installed by independently assembling a single adapter 50 to the receiving groove 30a of the unit 30. For reference, it should be noted that the embodiment for this case is not shown in the drawings.

In addition, the adapter 50 is manufactured in the form of a multi-stage structure 70 shown in FIG. 7, which will be described later, as a second embodiment of the present invention, and is assembled into the receiving groove 30a of the split body portion 30. You might as well use it. For detailed embodiments of this, refer to the second embodiment described later.

Figure 6 is a diagram showing the state of use of the waterproofing device for the standing pipe for wiring underground cables according to the second embodiment of the present invention, and Figure 7 is a multi-stage structure in the waterproofing device for the standing pipe shown in Figure 6. It is an enlarged perspective view with only the cover member 60 separated in the vertical pipe waterproofing device shown in FIG. 6.

Referring to Figures 6 to 8, the standing pipe waterproofing device according to the second embodiment of the present invention includes a standing pipe (20) installed on the side of the electric pole (10), and a cover member installed on the standing pipe (20). (60), and a hollow multi-stage structure (70) assembled to the cover member (60) and accommodating and mounting the underground cable (16) therein.

The riser pipe 20 is fixedly installed to surround the outside of the underground cable 16 on the side of the electric pole 10, and connects the underground cable 16 from the outside of the electric pole 10 to the space located inside the electric pole 10. ) It is configured to set a path to guide the inflow of the underground cable (16) and also to protect the inlet path of the underground cable (16) from the outside.

The cover member 60 is a cover member installed on the upper part of the granular pipe 20, and is configured to close the internal space formed by the granular pipe 20 at the top, as shown in FIG. 8.

In addition, the cover member 60 is provided with a plurality of insertion holes 62 for installation of the underground cable 16, and the insertion holes 62 closely accommodate the outer diameter of the multi-stage structure 70. It is configured to have an inner diameter of that size.

The multi-stage structure 70 is inserted and coupled into the insertion hole 62 of the cover member 60, and is a hollow layered structure with penetrating portions 72 of different diameters as shown in FIG. 8. It is made in the form That is, the multi-level structure 70 is configured to have a different outer diameter for each layer. In particular, it would be desirable for the multi-stage structure 70 to be made of a synthetic rubber-type material that has both elasticity and durability.

In this case, the penetrating portion 72 is configured to have an inner diameter that individually corresponds to the outer diameter of each underground cable 16 of various standards. That is, the penetrating portion 72 is configured to have a different inner diameter for each layer in the multi-level structure 70.

As a result, each layer member of the multi-stage structure 70 can be installed by tightly inserting underground cables 16 of various specifications. In addition, the multi-stage structure 70 can be conveniently used during field work by using the step surface located between structures of different diameters as a boundary surface for cutting.

In addition, the penetrating portion 72 is disposed along the same direction as the installation direction of the underground cable 16 with respect to the multi-stage structure 70, and the penetrating portion 72 is a vertical structure with a diameter of It is configured to be arranged sequentially according to order. That is, the multi-stage structure 70 is sequentially arranged in the vertical direction according to the size order of the diameters of the penetrating portion 72 from the largest body portion (lowest member) to the smallest body portion (uppermost member). It would be desirable to have it placed.

This means that when inserting the underground cable 16 into the multi-stage structure 70, only the layered structure having an inner diameter matching the outer diameter of the underground cable 16 is left, and the layered structure having an inner diameter smaller than this is left. This is to facilitate assembly of the underground cable 16 to the penetrating part 72 of the multi-stage structure 70 by cutting and removing it.

In addition, the smallest body part of the multi-stage structure 70, which has the smallest diameter penetrating part 72 inside, is configured to be closed by a solid plug of the form shown in FIG. 5, which is This is to block the inflow of unwanted foreign substances into the interior.

Meanwhile, the cover member 60 and the multi-stage structure 70 each have cut portions 64 and 74 that bisect the member in the same direction as the installation direction of the underground cable 16, and the cut portions 64 and 74 ) Each member divided by is additionally provided with a locking structure 80, so that the cover member 60 and the multi-stage structure 70 can be coupled to each other via the locking structure 80. It consists of a structure.

In addition, the locking structure 80 may be of any type as long as it can realize coupling between members divided around the cut portions 64 and 74, but the size of the cover member 60 and the multi-stage structure 70 may vary. Considering this, a compression-type bonding structure that can be bonded to each other through compression by external force as a metallic material would be most appropriate.

In particular, in the case of the cover member 60, a hinge member 66 is added to enable the divided member to be expanded in the left and right directions at an area opposite to the position of the locking structure 80 centered on the cut portion 64. It would be more desirable to be equipped with it.

Therefore, the waterproofing device for the standing pipe for wiring underground cables according to the embodiment of the present invention configured as described above is easy to combine as the waterproofing structure installed inside the standing pipe 20 is in close contact with the outer peripheral surface of the underground cable 16. Since it is composed of a hollow, split body portion (30), the waterproofing performance of the underground cable (16) distributed in the riser pipe (20) can be completely guaranteed.

In addition, in an embodiment of the present invention, the split body portion 30 is connected to the riser pipe 20 through the additional installation of a hollow adapter 50 having an inner diameter that matches the outer diameter of the underground cable 16 of various standards. It is possible to further improve the waterproofing performance of the underground cable (16) distributed in ).

The waterproofing device for a standing pipe for wiring underground cables according to an embodiment of the present invention has a waterproofing structure installed inside the standing pipe (20) with penetration parts (72) of different diameters inside, and is used to connect the underground cable (16) to the underground cable (16). Since it is composed of a hollow multi-stage structure 70 in close contact with the outer peripheral surface, the waterproofing performance of the underground cable 16 distributed in the riser pipe 20 can be completely guaranteed.

In addition, in an embodiment of the present invention, the multi-stage structure 70 has a structure in which the diameter of the penetrating portion 72 is different from the minimum body portion to the maximum body portion, so that it can be used in underground structures having outer diameters of various standards. This makes field installation of the cable (16) easier to perform.

10-Jeonju 12-Overhead distribution line
14-Buried structure 16-Underground cable
18-Cable Standing Pipe 20-Rising Pipe
30-split body 32-cut surface
40-fastening means 42-drilled hole
50-Adapter(50) 52-Plug
60-cover member 62-insertion hole
64-cutting part 66-hinge member
70-Multi-level structure 72-Penetration part
74-cutting part 80-locking structure

Claims (1)

As a waterproofing device for standing pipes for wiring underground cables,
a cover member installed on the riser pipe and having a plurality of insertion holes for installation of underground cables; and
Equipped with a hollow multi-stage structure coupled to the insertion hole of the cover member and having penetrating parts of different diameters therein,
The penetrating portion is configured to have an inner diameter that matches the outer diameter of underground cables of various standards,
The covering member and the multi-stage structure each have a cutting part that bisects the member in the same direction as the installation direction of the underground cable, and each member divided by the cutting part is provided with a locking structure, so that the covering member and the multi-stage structure A waterproofing device for a riser pipe for wiring underground cables, characterized in that it is coupled via a locking structure.