KR20230001856A - Prefabricated embedded reinforcement foundation for pole installation - Google Patents

Abstract

In the present invention, disclosed is a prefabricated embedded reinforcement foundation, which allows embedded reinforcement for an electric pole to be performed within a short period without disturbing the passage of surrounding vehicles or pedestrians through manufacture of standardized foundations, and can provide uniform quality in strength. The prefabricated embedded reinforcement foundation comprises a plurality of split bodies assembled to surround the outer circumferential surface of an electric pole from both left and right sides, an insertion hole penetrating between the split bodies so as to communicatively connect them, and a connecting support inserted and fastened in the insertion hole.

Description

Prefabricated embedded reinforcement foundation for pole installation}

The present invention relates to a prefabricated embedded reinforcement foundation for installation of an electric pole, and more particularly, through the production of a standardized foundation, embedded reinforcement for an electric pole can be implemented within a short period of time without inconvenience to the passage of surrounding vehicles or pedestrians. It is about a prefabricated embedded reinforced foundation.

In general, electric poles are mainly made of concrete materials in consideration of economic feasibility and strength.

In addition, in the installation on the pole, if it is difficult to excavate the pole depth, such as when the ground is bedrock or there is a facility underground, approximately 2/3 of the pole pole's standard penetration (h) is excavated and then the foundation concrete is installed. It is prescribed to reinforce the support base of electric poles using

However, there have been many difficulties in the insertion reinforcement of electric poles because there are many places where the construction of concrete electric poles is inappropriate depending on the conditions of the installation site of electric poles, such as in downtown areas.

In addition, in the case of electric poles installed in places with high traffic volume, such as downtown areas, most of the reinforcement works are inappropriate for construction quality (material mixing, concrete pouring, curing work process, etc.) can also lead to consequences.

In particular, in the construction of embedded reinforcement of concrete poles, since the hardening of concrete reaches its final compressive strength after about 28 days, it is less susceptible to the influence of the external environment such as the mixing method of materials, the environmental conditions of casting and curing, and changes in weather. It can also cause a problem of strength loss.

Publication No. 10-2019-0078143

A technical problem to be solved by the present invention is to provide a prefabricated reinforcement base capable of performing ramification reinforcement for electric poles in a short period of time through the manufacture of a standardized pedestal base without inconvenience to the passage of surrounding vehicles or pedestrians.

Another technical problem to be solved by the present invention is to provide a prefabricated embedded reinforcement foundation that can improve work efficiency by enabling uniform quality in terms of design strength in performing embedded reinforcement for electric poles.

Another technical problem to be solved by the present invention is to manufacture a foundation using a raw material mixed with an appropriate amount of FRP material to concrete material, thereby securing superior durability, corrosion resistance and tensile strength compared to the foundation of existing concrete materials. It is to provide a prefabricated embedded reinforcement foundation.

The present invention for solving the above technical problem is a prefabricated embedded reinforcement foundation for installing an electric pole, a plurality of divided body parts assembled to surround the outer circumferential surface of the electric pole on both left and right sides, between the divided body parts An insertion hole penetrating so as to be able to communicate with each other, and a support for connection inserted and fastened through the insertion hole, wherein the split body part is mixed with a concrete material and an FRP material, and the FRP material is used for the entire concrete volume. It is preferable to be configured so that the particles having a length of 3 to 10 mm are mixed by about 1 to 5%.

In an embodiment of the present invention, the split body portion is composed of an upper divided portion and a lower divided portion formed by mutually coupling the bottom portions of a pair of hollow truncated cones, and the upper divided portion is standard with respect to the ground surface. It is set to have a height exposed to the outside by 1/3 the length of the intrusion (h), and the lower division has a depth buried underground by 1/6 the length of the standard intrusion (h) based on the ground surface. It is preferable to set

In the embodiment of the present invention, the split body portion is set by the length of the longest side of the inner diameter portion reaching the outer circumferential surface of the electric pole by 1/3 of the standard indentation (h), and the inner diameter of the inner diameter part reaching the outer circumferential surface of the electric pole It is preferable to be configured so that the thickness of the shortest side is set by 1/6 times the length of the standard indentation (h).

In an embodiment of the present invention, the insertion hole is provided in a horizontal direction with respect to the upper divided part and the lower divided part, and the support for connection is inserted through the insertion hole located in the upper divided part and fastened to the lower side. It is preferable to be configured to be inserted and fastened through an insertion hole located in the divided portion.

In an embodiment of the present invention, the support for connection is preferably provided with fastening screws at both ends, respectively, and the screw parts are configured to be fastened with nut-structured safety caps at the entrance of the insertion hole.

In an embodiment of the present invention, it is preferable that a cover part for covering the divided body part from the outside is further included, and the cover part is made of FRP material.

In an embodiment of the present invention, it is preferable that the cover part is composed of an upper cover and a lower cover that individually cover the upper divided part and the lower divided part.

An embodiment of the present invention further includes a grounding copper plate installed on a bottom surface of the lower divided part in the divided body part, and the grounding copper plate is preferably electrically connected to a grounding line wired to an inner space of the electric pole.

In the embodiment of the present invention, it is preferable that the ground copper plate is fixed via stud bolts and nuts installed on the bottom part of the lower divided part in the divided body part.

In an embodiment of the present invention, it is preferable that the ground copper plate has a sleeve protruding outward for connection with a ground wire and a through hole for inserting the stud bolt.

An embodiment of the present invention further includes a grounding rod installed so that the lower free end is buried in the ground by penetrating the divided body in the vertical direction, and the grounding rod is electrically connected to a grounding wire wired along the outside of the electric pole it is desirable

Since the prefabricated embedded reinforcement foundation according to an embodiment of the present invention can manufacture and supply a standardized foundation for embedded reinforcement for the electric pole, not only can the time required for installation on the electric pole be greatly reduced, but also the It provides an effect of minimizing inconvenience for the passage of vehicles or pedestrians located nearby.

In addition, the prefabricated embedded reinforcement foundation according to the embodiment of the present invention can obtain uniform quality in terms of design strength in performing embedded reinforcement for electric poles as standardized foundations are manufactured and supplied, as well as the existing Compared to the installation method of concrete cast-type electric poles, electric poles can be installed in a significantly simplified process, providing excellent effects in terms of work efficiency.

In addition, since the prefabricated embedded reinforced foundation according to the embodiment of the present invention can be manufactured using a raw material in which an appropriate amount of FRP material is mixed with concrete material, it has excellent durability and durability compared to the existing foundation manufactured only with concrete material. It provides an effect capable of securing corrosiveness and tensile force.

1 is a perspective view showing a state of use for a prefabricated embedded reinforcement foundation according to an embodiment of the present invention.
Figure 2 is a perspective view showing the disassembly of the main components to explain the configuration of the prefabricated embedded reinforcement foundation according to an embodiment of the present invention.
Figure 3 is for explaining the numerical specifications such as the ground exposure height and the underground buried depth of the foundation compared to the standards of standard penetration (h) in constructing an electric pole using a prefabricated embedded reinforcement foundation according to an embodiment of the present invention it is a drawing
4 is a perspective view showing a foundation for aesthetic improvement used in an area such as a downtown downtown area as another modified embodiment of a prefabricated reinforced foundation according to the present invention.
FIG. 5 is an exploded perspective view of major components of the foundation shown in FIG. 4;
Figure 6 is a schematic view for explaining an embodiment of the installation of the ground copper plate in the prefabricated embedded reinforcement foundation according to the present invention.
7 is a schematic diagram for explaining another embodiment of the installation of the ground copper plate in the prefabricated embedded reinforcement foundation according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms should be made based on the contents throughout this specification. In addition, the following examples do not limit the scope of the present invention, but are merely illustrative of the components presented in the claims of the present invention, are included in the technical spirit throughout the specification of the present invention, and constitute the claims. Embodiments including elements that can be replaced as equivalents in elements may be included in the scope of the present invention.

Referring to Figures 1 to 3, the embodiment of the present invention is to install the electric pole (3) using the prefabricated embedded reinforcement foundation (1) of the concrete mixture material buried in the ground, the foundation (1 ) is a plurality of divided body parts 10 assembled to surround the outer circumferential surface of the electric pole 3 on both left and right sides, and an insertion hole 20 connecting the plurality of divided body parts 10 through mutual communication with each other. ), and a connection support 30 that is inserted and fastened through the insertion hole 20 to combine the plurality of divided body parts 10 into a single hollow member.

The split body portion 10 is composed of a plurality of members assembled to surround the outer circumferential surface of the lower end of the pole 3 from both left and right sides to form a single hollow member.

In addition, when the plurality of divided body parts 10 are combined into a single hollow member based on the external appearance, the divided body part 10 constituting the foundation 1 is a pair of hollow truncated cones. It is composed of an upper divided part (10a) and a lower divided part (10b) forming the overall appearance in the form of mutual coupling between the bottom parts of the. That is, the split body portion 10 is composed of a semi-cylindrical structure in which bottom portions of a pair of hollow truncated cones that can be divided into left and right sides are coupled to each other.

In particular, as shown in Figure 3, the upper divided portion (10a) has a height exposed toward the outside by 1/3 times the length of the standard indentation (h) corresponding to the installation standard of the electric pole (3) based on the ground surface. It is set to have, and the lower partition (10b) is set to have a depth buried underground by 1/6 times the length of the standard inlet (h) corresponding to the installation standard of the pole (3) based on the ground surface . In this case, it is preferable that the excavation depth for the installation of the electric pole 3 with respect to the ground surface is configured to be set to about 2/3 times the standard penetration (h) based on the ground surface.

In addition, in the split body portion 10, the thickness of the longest side of the inner diameter portion reaching the outer circumferential surface of the electric pole 3 is set by 1/3 times the length of the standard indentation h, and the outer circumferential surface of the electric pole 3 It would be more preferable to configure the thickness of the shortest side of the inner diameter to be set by 1/6 times the length of the standard indentation (h).

In particular, the split body part 10 is made of a material in which FRP material is mixed with concrete material, and the FRP material is configured such that particles having a length of 3 to 10 mm are mixed by 1 to 5% with respect to the total volume of concrete would be more preferable.

The insertion hole 20 is formed by penetrating the plurality of divided body parts 10 in a substantially horizontal direction, and may be individually formed for each of the upper divided part 10a and the lower divided part 10b. There will be. In this case, of course, the insertion holes 20 formed in the plurality of split body parts 10 are formed at positions where each of the upper divided part 10a and the lower divided part 10b can communicate with each other. .

The connection support 30 is individually inserted and fastened through a plurality of insertion holes 20 formed in each of the upper divided part 10a and the lower divided part 10b, thereby forming a plurality of divided body parts 10. It plays a role in combining into a single hollow truncated cone structure.

That is, the support for connection 30 is inserted and fastened through the insertion hole 20 located in the upper divided part 10a, and is inserted through the insertion hole 20 located in the lower divided part 10b. configured to be engaged.

In addition, the support for connection 30 is configured in the form of a rod-shaped object having fastening screw parts 31 at both ends, and the screw part 31 is a nut structure safety cap at the entrance of the insertion hole 20. (32), the tip of the threaded portion 31 is not directly exposed to the outside. That is, the safety cap 32 is fastened to the screw part 31 and is configured to serve to close the front end of the screw part 31 to the outside.

Referring to FIGS. 4 and 5, the prefabricated built-in reinforcement foundation 1 according to the embodiment of the present invention completely covers the split body portion 10 from the outside and provides a split body portion 10 to the outside. The bar further includes a cover part 40 corresponding to an outer skin material to block direct exposure, and it is preferable that the cover part is made of FRP material.

In addition, the cover part 40 is composed of an upper cover 40a and a lower cover 40b formed in a vertically divided structure so as to individually cover the upper divided part 10a and the lower divided part 10b. .

Referring to FIG. 6, the prefabricated embedded reinforcement foundation 1 according to an embodiment of the present invention further includes a ground copper plate 50 installed on the bottom portion. That is, the ground copper plate 50 is configured to be installed on the bottom of the lower divided part 10b of the divided body part 10 .

In addition, the ground copper plate 50 is configured to be electrically connected to a ground line that is routed along the inner space of the pole 3. In this case, the grounding copper plate 50 is fixed through a fastening method mediated by stud bolts 11 and nuts 12 installed on the lower surface of the lower divided part 10b in the divided body part 10. It could be.

In addition, the ground copper plate 50 includes a sleeve 51 protruding outward from a member for electrical connection with a ground wire, and a through hole 52 for inserting the stud bolt 11 . In this case, the sleeve 51 serves to press and fix the free end of the ground wire.

Referring to FIG. 7, the prefabricated embedded reinforcement foundation 1 according to an embodiment of the present invention penetrates the divided body 10 in the vertical direction and the lower free end is installed to be buried in the ground. 60) is further included.

That is, the ground copper bar 60 is inserted and assembled into the hole sequentially penetrating the upper divided portion 10a and the lower divided portion 10b in a direction perpendicular to the vertical direction.

In addition, the upper free end of the ground copper bar 60 is exposed to the outside of the upper divided portion 10a and is electrically connected to the ground wire 61 wired along the outside of the electric pole 3, and the ground copper bar 60 The lower free end of ) is directly exposed to the ground through the lower divided portion 10b and is configured to be grounded.

1-foundation 3-pole
10-divided body part
10a-upper partition 10b-lower partition
11-stud bolt 12-nut
20-insertion hole 30-support for connection
31 - screw part 32 - safety cap
40-cover part
40a-upper cover 40b-lower cover
50-ground copper plate 51-sleeve
52-through hole 60-ground enclosure
61 - ground wire

Claims (11)

In the prefabricated reinforcement base for installation of electric poles,
A plurality of divided body parts assembled to surround the outer circumferential surface of the electric pole from both left and right sides,
An insertion hole penetrating between the divided body parts to be able to communicate with each other, and
A support for connection inserted and fastened through the insertion hole,
The split body part is a prefabricated reinforced foundation, characterized in that the FRP material is mixed with the concrete material, and the FRP material is configured to mix about 1 to 5% of particles having a length of 3 to 10 mm with respect to the total volume of concrete. The method of claim 1,
The split body portion is composed of an upper divided portion and a lower divided portion formed by mutually coupling the bottom surfaces of a pair of hollow truncated cones, and the upper divided portion is 1/3 of the standard penetration (h) based on the ground surface. It is set to have a height exposed to the outside by the length of the ship, and the lower partition is set to have a depth buried underground by 1/6 times the length of the standard inlet (h) based on the ground surface. Intrusive reinforcement foundation. The method of claim 2,
In the split body part, the thickness of the longest side of the inner diameter part reaching the outer circumferential surface of the electric pole is set by 1/3 times the length of the standard root (h), and the thickness of the shortest side of the inner diameter part reaching the outer circumferential surface of the electric pole is the standard root (h) ) Prefabricated reinforcement foundation, characterized in that configured to be set by 1/6 times the length of. The method of claim 2,
The insertion holes are provided in a horizontal direction with respect to the upper divided part and the lower divided part, respectively, and the support for connection is inserted through the insertion hole located in the upper divided part and fastened through the insertion hole located in the lower divided part. Prefabricated reinforcement foundation, characterized in that configured to be inserted and fastened through. The method of claim 4,
The support for connection is provided with screw parts for fastening at both ends, respectively, and the screw part is configured to be fastened with a safety cap of a nut structure at the entrance of the insertion hole. The method of claim 2,
A prefabricated reinforcement foundation, characterized in that it further comprises a cover portion covering the divided body portion from the outside, and the cover portion is made of a material of FRP material. The method of claim 6,
The cover unit is composed of an upper cover and a lower cover that individually cover the upper divided part and the lower divided part. The method of claim 2,
A prefabricated reinforcement foundation, characterized in that it further comprises a grounding copper plate installed on the bottom part of the lower divided part in the divided body part, and the grounding copper plate is electrically connected to a grounding wire wired to the inner space of the electric pole. The method of claim 8,
The ground copper plate is prefabricated reinforcement base, characterized in that fixed via the stud bolt and nut fastening installed on the bottom of the lower divided part in the divided body part. The method of claim 9,
The ground copper plate is prefabricated reinforcement foundation, characterized in that it has a sleeve protruding toward the outside for connection with the ground wire, and a through hole for inserting the stud bolt. The method of claim 2,
Further comprising a ground rod installed so that the lower free end is buried in the ground by penetrating the divided body in the vertical direction, and the ground rod is electrically connected to a ground wire wired along the outside of the electric pole. reinforced foundation.

Images