KR102172879B1 - The metal fittings apparatus for supporting load of concrete pole with double steel wire - Google Patents

Abstract

The present invention is a concrete pole for distribution that has a double steel wire structure capable of increasing the lateral load of the pole by forming an array of steel wires arranged on the concrete pole in a double steel wire structure unlike the prior art when manufacturing a concrete pole of the pre-tension method. In the electric pole manufactured by the pre-tension method in more detail, the load supporting device is inserted and installed inside the existing radially reinforced PC steel wire knitting product before the pole forming, and supports the load. The device includes a support ring formed in a ring shape, and a support steel wire member that is radially fixed to the support ring, and the load support device forms a concentric circle inside the PC steel wire to be provided inside the electric pole in a double wire structure. It is characterized in that it is fixedly installed.

Description

The metal fittings apparatus for supporting load of concrete pole with double steel wire}

The present invention relates to a load supporting device capable of increasing the guaranteed load of the electric pole by forming the arrangement of the steel wires arranged on the concrete electric pole in a double steel wire structure unlike the prior art when manufacturing the pretension type concrete pole.

In general, concrete poles to which electric wires are connected are manufactured by a pretension method by radially placing a plurality of PC steel wires inside the structure.

The PC steel wire 20 used for this electric pole 10 is composed of a tensioning rod 21 for supporting the main load and a reinforcing rod 22 for reinforcing the load, as shown in FIG. The reinforcing bars and reinforcing bars are inserted and installed in a vertical direction on the ground on which the lower part of the structure is formed by welding the spiral iron column.

Meanwhile, as shown in FIG. 2, when an external force (load) is applied by other components (wires, transformers, etc.) installed on the electric pole or an external environment such as a typhoon, the load is relatively concentrated. Damage occurs in the side part, and high-strength concrete poles of the pre-tension method are generally used in order to prevent breakage and breakage of poles due to such lateral load.

However, due to the recent increase in domestic electric power and communication demand, the load required for electric poles is increasing rapidly, and there are cases in which concrete poles are broken without withstanding the increased load at some sites. Therefore, in order to secure the reliability of distribution lines, the demand for ultra-high-strength concrete poles with a higher guaranteed load is constantly increasing, but the existing concrete pole structure has limitations in manufacturing such ultra-high-strength poles.

In order to solve this problem, a column-shaped inner reinforcing member is inserted between the upper pole member and the lower pole member as in Korean Patent Registration No. 10-1877256 (announced on July 11, 2018) as a conventional technique to reinforce the external force. A technology is disclosed to have the effect of or to respond to external forces by installing a bending correction unit on the upper and lower portions of the electric pole body, respectively, as in Korean Patent Registration No. 10-0723303 (announced on May 31, 2007).

However, these conventional techniques have a problem in that they have a structure that is difficult to use for concrete poles formed by the pre-tension method.

The present invention has been proposed in order to solve the above-described problems in the related art, and relates to a load supporting device for an ultra-high strength concrete pole of a double steel wire structure capable of increasing the guaranteed load of a pole manufactured by a pre-tension method.

In order to solve the above-described technical problem, the load-bearing bracket device for a concrete pole for distribution having a double steel wire structure according to the present invention is a pole that is manufactured by a pretension method, which is laid radially before the pole is formed. It is inserted and installed inside the PC steel wire knitting product, and the load support device includes a support ring formed in a ring shape, a support steel wire member that is radially fixed to the support ring, and the support steel wire member forms a concentric circle with the PC steel wire. It is characterized in that it is fixedly installed on the support ring so that it can be provided inside the electric pole in two.

In addition, it is preferable that the support rings are disposed adjacent to each other in the longitudinal direction of the electric pole, and are connected to each other by a support steel wire member radially disposed on each of the support rings.

In this case, the support steel wire member may include a plurality of first support members connecting the plurality of support rings to each other, and a plurality of second support members connecting the first support members to each other, and the second support member is a diagonal line It is preferable to be arranged in a form.

In addition, it is preferable that the support ring further includes a rib for maintaining the ring shape against external force.

According to the present invention, a load support device is installed inside the electric pole in two layers along with the PC steel wire forming the frame of the electric pole on the side of the electric pole where a high load can be applied differently from the prior art. , The load support device has an effect of increasing the bending strength of the electric pole and improving the guaranteed load of the electric pole by allowing a plurality of support rings to be fixedly installed to each other by a supporting steel wire member.

1 is a view showing a cross section of an electric pole molded by a conventional pre-tension method.
Figure 2 is a view showing step by step that the damage is made by applying an external force to a conventional electric pole.
3 is a view showing a load-bearing bracket device for a concrete pole for distribution having a double steel wire structure according to the present invention.
4 is a view showing a state in which a load support device is inserted into a structure in a PC steel wire.
Figure 5 is a view showing a cross-section AA' of the electric pole having a double steel wire structure of Figure 4;
Figure 6 is another embodiment of the load-bearing bracket device for a concrete pole for distribution having a double steel wire structure according to the present invention.
Figure 7 is a use state of the load-bearing bracket device for a concrete pole for distribution having a double steel wire structure according to the present invention.
Figure 7 is a use state of the load-bearing bracket device for a concrete pole for distribution having a double steel wire structure according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the load supporting bracket (hereinafter, simply referred to as a'load supporting device') for a concrete pole for distribution having a double steel wire structure according to the present invention. Prior to the description, the load supporting device 1 in the present invention has been described as an example of a pole having a circular column shape in order to clarify the gist, but this is only one embodiment, and if necessary Note that it is also possible to use it for pillar-shaped pile pipes used for foundation construction of buildings.

First, as shown in Figure 3, the load support device 1 according to the present invention is large to support the external force, in particular, the lateral load of the pole 10 inserted and installed in the ground on which the lower part is placed. And a support steel wire member 130.

In more detail, the support ring 100 has a hollow part 110 having a predetermined diameter therein as a whole, but is formed in a ring shape having a predetermined area in the vertical direction, and radially on the inner wall thereof. A plurality of support steel wire members 130 to be described later are fixedly installed in the longitudinal direction of the electric pole 10.

The support ring 100 is formed of a metal material having rigidity to resist the lateral load of the electric pole 10 against the aforementioned external force, and the shape of the support ring 100 against the corresponding external force inside the hollow part 110 At least one or more ribs 120 in the form of a bar or plank having a predetermined length may be further provided to preserve the

At this time, it is preferable that the rib 120 is provided in the hollow portion 110 in the shape of a'-', a'+', and a'*' to have resistance against external force.

On the other hand, as shown, the support ring 100 may be provided and installed in plural adjacent to each other in the longitudinal direction inside the electric pole 10 having a predetermined length in the vertical direction, in this case, each support ring ( 100) is connected to each other through the support steel wire member 130 so that it can more easily respond to the lateral load of the electric pole 10 against external force (see Figs. 6 (a) and 7 (a)).

At this time, the support ring 100 provided in plural on one electric pole 10 gradually decreases in diameter from the bottom to the top in response to the shape of the corresponding electric pole 10 and gradually decreases from the top to the bottom. It is preferable to form the outer diameter of) to be large (see Fig. 6(b)).

In addition, although not shown, the auxiliary support ring 100 having the same shape having different outer diameters on the outer surface of the support ring 100 is additionally fitted and coupled to the outer surface of the support ring 100 to bend the pole 10 against external force. It makes it easier to cope with the phenomenon.

In addition, a plurality of support rings 100 connected to each other by the support steel wire member 130 is formed as a unit so that it can be provided in a plurality of configurations inside one electric pole 10 (Fig. 7 (b)). Reference).

The support steel wire member 130 in the present invention includes a first support member 131 and a plurality of the first support members 131 radially connecting a plurality of support rings 100 adjacent to each other in a vertical direction. It may include a second support member 133 that is connected and reinforced.

6, the first support member 131 is fixedly installed on the upper support ring 100 so that a plurality of support rings 100 adjacent to each other in a vertical direction can be connected to each other, and the lower part thereof is It is installed to have a length in the vertical direction so that it can be fixedly installed on the support ring 100.

The first support member 131 connecting the pair of support rings 100 to each other has a function of the reinforcing bar 22 forming the frame of the electric pole 10 in addition to the function of connecting the support ring 100. For this purpose, the same shape or material as the reinforcing bar can be used.

The second support member 133 can have a frame function of the electric pole 10 by using the same shape or material as the first support member 131 described above, but the upper and lower portions of the first support member ( 131) It is installed to have a plurality of configurations radially between the pair of support rings 100 so that they can be fixedly installed on the upper or outer surface of the support ring 100.

At this time, the second support member 133 is installed so that the upper and lower portions have an oblique shape differently from the first support member 131, together with the first support member 131, the lateral load of the electric pole 10 against external force. It is desirable to be able to resist.

The load supporting device 1 according to the present invention made of such a configuration is different from the conventional ones, on the side of the pole 10 to which a relatively large lateral load can be applied, and inside the PC steel wire 20 forming the frame of the pole 10 By installing in duplicate so that the electric pole can be formed by the pre-tension method, it has the effect of improving the guaranteed load against the lateral load of the electric pole 10.

In the above, specific embodiments of the present invention have been described above. However, the spirit and scope of the present invention are not limited to these specific embodiments, and that various modifications and variations are possible within the scope of not changing the subject matter of the present invention. You will understand when you grow up.

Therefore, the embodiments described above are provided to completely inform the scope of the invention to those of ordinary skill in the technical field to which the present invention belongs, and should be understood as illustrative and non-limiting in all respects, The invention is only defined by the scope of the claims.

1: Load-bearing bracket device for a concrete pole for distribution with a double steel wire structure according to the present invention
100: support ring 110: hollow
120: rib 130: support steel wire member
131: first support member 133: second support member

Claims (4)

In the load-bearing bracket device for distribution concrete poles having a double steel wire structure manufactured by a pretension method,
The electric pole 10 includes a load supporting device installed inside the PC steel wire before molding, the load supporting device is a supporting ring 100 formed in a ring shape, a support fixedly installed radially on the supporting ring 100 Including a steel wire member 130,
The support steel wire member 130 is fixedly installed on the support ring 100 so as to form a concentric circle with the PC steel wire 20 so as to be provided in the electric pole 10 in a double manner,
The support ring 100 is disposed adjacent to each other in the longitudinal direction of the electric pole 10 so that its outer diameter gradually decreases from the bottom to the top, and the support steel wires are radially disposed on each of the support rings 100 Doedoe connected to each other by the member 130, but further includes a rib 120 for maintaining a ring shape against external force therein,
The support steel wire member 130 includes a plurality of first support members 131 connecting the plurality of support rings 100 to each other, and a second support member 133 connecting the first support member 131 to each other. Including, wherein the second support member 133 is arranged in a diagonal shape to have resistance to the lateral load of the electric pole 10 against external force. Device.
delete delete delete

Images