KR102551818B1 - Spiral Bolt For Ground Reinforcement - Google Patents

Abstract

The present invention is provided in relation to a spiral bolt for increasing the bearing capacity of the ground. More specifically, spiral bolt piles for reinforcing the bearing capacity of the ground are used to reinforce soft ground using a tube for injecting mortar in the construction and installation of various structures or facilities of civil engineering buildings, natural power generators (photovoltaic generators, wind generators), etc. For this purpose, the bearing capacity reinforcement pile of the ground is used. It relates to a ground bearing capacity reinforcement pile used in a soft ground reinforcement method using a ground bearing capacity reinforcement pile for fixing and installing a post structure to a soft ground, and to efficiently inject mortar by installing a tube in the ground bearing capacity reinforcement pile. it is for

Description

Spiral Bolt For Ground Reinforcement of Natural Power Generation Facilities {Spiral Bolt For Ground Reinforcement}

The present invention relates to a spiral bolt (pile) for increasing the bearing capacity of the ground. More specifically, the ground bearing capacity reinforcement pile is used in the construction and installation of various structures or facilities of civil engineering buildings, natural power generators such as solar power generators, wind power generators, etc., to reinforce the soft ground by using a tube for injecting mortar. Reinforcement piles are used, and at this time, ground bearing capacity reinforcement piles are used to reinforce soft ground using a tube for injecting mortar.

In other words, it relates to a ground bearing capacity reinforcement pile used in a soft ground reinforcement method using a ground bearing capacity reinforcement pile for fixing and installing a post structure to a soft ground, and is smart and highly efficient by installing a tube in the ground bearing capacity reinforcement pile It is about a configuration for injecting mortar.

In the case of soft ground, such as poorly compacted soil, or ground containing gravel rather than sandy or clay hard ground, there are cases where the bearing capacity reinforcement is insufficient only with a simple ground bearing capacity reinforcement pile. In this case, in order to stably fix the posts of the post structure, the post structure can be stably fixed to the ground through bolts, underground anchors, and double or triple helix structure ground bearing capacity reinforcement piles provided with twisted flat iron.

In order to reinforce it by reinforcing the bearing capacity of the ground, the method of injecting additional mortar after inserting the pile to reinforce the bearing capacity of the ground is to excavate the rock ground using an excavator in the case of rock ground such as the bedrock layer or the ground containing the large gravel layer. Then, after inserting a pile to reinforce the bearing capacity of the ground into the excavation hole, the mortar is poured.

In relation to FIG. 1, Patent Publication No. 7943 (2016.01.21.) is illustrated. Specifically, the ground bearing capacity reinforcement pile 100 includes a body 110 and a spiral wing 120 extending vertically downward from the lower end of the body 110. The body 110 has a cylindrical shape having a through hole 114 therein, and a mounting plate 112 is provided at the top. The mounting plate 112 is for coupling with the flange portion 20 provided at the lower end of the post structure 10, and is provided with a plurality of bolt grooves 116 in the circumferential direction for bolt coupling. The spiral blade 120 has a structure in which a plurality of unit spiral parts 122 are repeated for increasing ground bearing capacity. The spiral wing 120 is molded in a form in which the central part of the base material, the flat iron, is twisted at a certain angle with respect to the central axis in the longitudinal direction with a certain length, so that the unit spiral part is continuous.

The tube 130 is inserted into the through hole 114 of the fuselage 110, passes through the through hole 114, and is installed to extend to the lower end of the spiral wing 120. A hole penetrates the inside of the tube 130, and mortar is injected into the ground through this hole. The tube 130 may be made of a soft synthetic resin material or the like. The tube 130 is fixed to contact along the spiral blade 120, that is, the unit spiral part 122, by a plurality of fixing parts 140, and the tube 130 is fixed by an appropriate number of fixing parts 140. It is fixed without being separated from the spiral wing 120. For the fixing part 140, a method of fixing the tube 130 to the surface of the unit spiral part 122 by applying an adhesive material is usually applied, or a method of fixing the tube 130 to the unit spiral part 122 through another type of fixing member. ) can be fixed to the surface of In the soft soft ground reinforcement method using the ground bearing capacity reinforcement pile 100 having such a configuration, first, when the position where the post structure 10 is installed is determined, the ground bearing capacity reinforcement pile to the soft ground 150 at the position. (100) is inserted (S210).

Mortar is injected into the tube 130 of the ground bearing capacity reinforcement pile 100 so that the mortar is put into the ground (S220). As shown, when the ground bearing capacity reinforcement pile 100 is inserted, the upper part of the body 110 of the ground bearing capacity reinforcement pile 100 is exposed to the ground, and the upper end of the tube 130 on the top of the body 110 It protrudes, and mortar is injected from the top of the tube 130. Since the hole of the tube 130 is relatively large, when the mortar is injected into the tube 130, a pressure device not shown is used to inject the mortar. When the mortar is injected in this way, the mortar 160 comes out from the lower end of the tube 130 in the ground, and the mortar permeates the soft ground 150 with many gaps. When the mortar injection is completed, the post structure 10 and the ground bearing capacity reinforcing pile 100 are coupled (fixed) with bolts or the like. In this way, since the tube is installed in the pile to reinforce the bearing capacity of the ground and mortar can be injected into the soft ground through it, the bearing capacity of the soft ground can be reinforced. can be installed

inserting the bearing capacity reinforcing pile 100 into the soft ground while exposing an upper part of the body 110 of the ground bearing capacity reinforcing pile to the ground; Injecting the mortar from the top of the tube 130 exposed to the top of the body 110 causes the mortar to come out from the bottom of the tube 130 and inserts the mortar into the soft ground; The step of coupling and fixing the post structure to the bearing capacity reinforcement pile 100 of the ground; It is made on the basis of the soft ground reinforcement method using piles to reinforce the bearing capacity of the ground.

The ground bearing capacity reinforcement pile 100 has a body 110 provided with a through hole 114 therein and a mounting plate 112 coupled to the post structure 10 at the top; Spiral blades 120 extending downward from the lower end of the body 110 and having a plurality of unit spiral parts 122 for increasing the bearing capacity of the ground; A tube 130 installed through the fixing part 140 to be inserted into the through hole 114 of the fuselage 110, pass through the through hole 114, and extend to the lower end of the spiral wing 120; made including The fixing part 140 is divided into a lower fixing part 141 fixing the lower end of the tube 130 and a body fixing part 142 fixing the body of the tube 130. The body fixing part 142 is provided with at least one bar, the first body fixing part 142 (142-1); The second body fixing part (142) (142-2); The third body fixing part (142) (142-3); is exemplified by two or more plural numbers provided as.

It is not easy to put mortar in the case of inserting into the ground by rotating the pile for reinforcing the bearing capacity of the ground without drilling an excavation hole. At this time, after inserting the ground bearing capacity reinforcement pile into the soft ground, the mortar is widely and evenly injected around the body of the ground bearing capacity reinforcement pile to provide a bearing capacity reinforcement pile of the ground where the tube is installed so that the ground can be reinforced.

As a solution to the above problems, the spiral bolt pile for increasing the bearing capacity of the ground of the present invention,

A body having a through hole therein;

Equipped with a spiral wing extending downward from the lower end of the body,

After passing through the through hole, the tube is installed to extend to the lower end of the spiral wing and moves the mortar;

A piston provided at the lower end of the tube and having a lower end fixing part for injecting mortar into the ground through an external inlet, the inner periphery of the lower fixing part taking a cylindrical shape, and correspondingly taking a cylindrical shape vertically up and down supplied and fitted

H-shaped cutting grooves h1 and h2 are formed on the surface of the spiral wing, the upper body of the upper part formed by the cutting grooves h1 and h2 is bent upward, and the lower body of the lower part is downward It is bent, and the incision groove is provided by press processing,

A tube fixing groove corresponding to the outer shape of the tube is formed in the upper body, and the tube is inserted into and fixed to the tube fixing groove so that mortar can be introduced to the opposite side to which the lower end fixing part is attached.

After inserting the bearing capacity reinforcement pile into the ground of the soft ground, mortar is injected widely and evenly around the body of the ground bearing capacity reinforcement pile to reinforce the ground, but also on the opposite side where the lower end fixing part 141 of the spiral wing 120 is attached. Mortar can be added.

1 is a front view showing a ground bearing capacity reinforcement pile and an accompanying configuration, and an exemplary view showing a state in which the ground bearing capacity reinforcement pile is constructed on soft ground,
In FIG. 2, FIG. 2A is a cross-sectional view showing an enlarged portion of a pile configuration for reinforcing the bearing capacity of the ground; Figure 2B is an exemplary view showing an operating state; 2C and 2D are cross-sectional perspective views of another embodiment, showing its configuration and operation.
3 is an exemplary view showing one embodiment.
Another embodiment is illustrated in FIGS. 4 to 7 .

In the conventional soft ground reinforcement pile 100 for supporting the ground in FIG. 2, a body having a through hole therein and a mounting plate coupled to a post structure at the upper end, and a spiral wing extending downward from the lower end of the body ( 120), and includes a tube 130 installed to extend to the lower end of the spiral wing 120 after being inserted into the through hole of the body and passing through the through hole, and when the tube is installed, the spiral wing 120 A fixing part 140 is provided so that the tube is firmly attached to the spiral wing 120, so that when mortar is injected from the top of the tube, the mortar moves downward along the tube, and the mortar is injected into the soft ground from the bottom of the tube do.

The lower end of the tube 130 has a tube lower outlet 130a to discharge the mortar, the fixing part includes a cylindrical lower fixing part 141 for fixing the lower end of the tube, and the upper end of the lower fixing part 141 has a lower end of the tube. A tube lower fixing inlet 141e having an inner periphery corresponding to the outer periphery of the outlet 130a is formed, the lower end 141d of the lower fixing part 141 is blocked, and the body circumference of the lower fixing part 141 is A perforated opening is partially formed and used as an external inlet (141a) of the lower fixing part (141). The inner periphery of the lower fixing part 141 takes a cylindrical shape, and correspondingly, a piston 141c that takes a cylindrical shape vertically vertically is mounted, and the outer periphery of the piston 141c is of the lower fixing part 141. It moves up and down by sliding in close contact with the inner periphery, and normally the vertical length of the piston 141c is the outside of the lower fixing part 141 so as to block and close the outer inlet 141a of the lower fixing part 141. It is taken longer than the vertical length of the inlet (141a), and the lower part space (141b) of the lower fixing part (141) has its vertical length so that it can completely accommodate it when the piston (141c) descends to the lowest position. , Taken larger than the vertical length of the piston 141c, when mortar is injected from the tube lower outlet 130a into the lower fixing part 141, the pressure first lowers the piston 141c, and accordingly, the lower The external injection port 141a of the top 141 is opened to the outside so that mortar is injected into the soft ground.

The tube is fixed to the spiral wing 120 through a plurality of body fixing parts 142, and the tube 130 is provided with the middle and the middle of the body separated, and the body fixing part 142 has a pipe shape with an empty inside. By taking, each of the separated inlets of the tube 130 is configured to be fixed to each of the upper and lower inlets of the body fixing portion 142, and the body fixing portion (so that mortar can flow out and be injected into the surrounding soft ground) 142) is provided with an external inlet 141a of the body fixing part 142, which is configured by opening a certain portion around it, and the external inlet 141a of the body fixing part 142 is a blocking film that maintains a normally blocked state. (142a`), and the blocking film (142a`) is selected as a member that can be destroyed when the load pressure or more set before construction, the external inlet (141a) of the lower fixing part (141) is opened, and the mortar is externally soft. When injected into the ground (m4), the flow of mortar smoothly descends to reach the outer inlet 141a of the lower fixing part 141 and flows out. After that, when the soft ground on the lower fixing part 141 side is compacted and the mortar can no longer escape to the outside, the internal pressure of the tube 130 increases, and accordingly, the internal pressure is applied to the barrier film 142a`. As the blocking film 142a` is destroyed by the action, the external injection port 141a of the body fixing part 142 is opened and the mortar is injected into the soft ground around it. The plurality of body fixing parts 142 include a first body fixing part 142 (142-1); The second body fixing part (142) (142-2); and a third body fixing part 142, 142-3, each of which includes an external inlet 141a and a blocking film 142a` of the body fixing part 142, and sequentially each blocking film 142a. The rupture strength of `) is set differently, so that the outer inlet 141a of the body fixing part 142 is sequentially opened in such a way that the blocking film 142a` is ruptured from the bottom to the top, gradually starting from deep in the ground. It is configured to compact and reinforce soft ground by injecting mortar into the shallow side. Through this, the site where the mortar is injected into the soft ground is prevented from being clogged, so that the mortar can be smoothly injected into the soft ground.

According to the pile for reinforcing the bearing capacity of the ground for soft ground reinforcement according to FIG. 2, the external inlet of the lower fixing part 141 by the spiral wing 120, that is, the unit spiral part 122, when mortar is injected into the surrounding soft ground (141a) Since one side is blocked and clogged, it is not easy to spray mortar in that direction. In order to improve this, below, with reference to the accompanying drawings, learn more about the soft ground reinforcement reinforcement pile for soft ground reinforcement. The bearing capacity reinforcement pile of the present invention is composed of a means (100) for spraying (s2) mortar to the opposite side of the side to which the lower end fixing part (141) of the tube (130) is attached to the lower side of the spiral wing (120). do. In the present invention, digging all grooves or forming incision grooves may be performed through laser cutting or press processing.

As in the embodiment of FIG. 3, a mortar outlet hole (h110) is formed by making a groove (by drilling a hole) in the lower end of the spiral wing 120 as the mortar spraying means 100 on the opposite side of the attachment of the tube 130. can be achieved by Through this, it is configured to pass through the mortar outlet hole (h100) on the side opposite to the attachment of the tube 130 so that the mortar can escape and be sprayed (s2). Figure 3A is an exploded view of the spiral wing 120 and the tube 130 with the mortar outflow hole (h100) drilled, Figure 3B is a combined view, and Figure 3C is the side of the spiral wing 120 ( s1) exemplifies a state in which mortar is sprayed and injected to the other side (s2), that is, both to the side to which the tube 130 is attached and to the side opposite to the side to which the tube 130 is attached.

In the embodiment of FIGS. 4 to 7, a spiral wing 120 integrated mortar outflow and tube fixing bracket 120 are formed as a means 100 for mortar injection to the opposite side of the tube 130, which is more advanced. A mortar outflow hole h0 (which can be replaced with a 'mortar outflow groove' to distinguish it from that of the embodiment of FIG. 3A) is formed (perforated) at the same time as an integral type. In more detail, in FIG. 4, the incision grooves h1 and h2 cut (cut) in the shape of H on the surface of the spiral wing 120 are dug so that the spiral wing 120 can be separated or separated from the body. Therefore, as shown in FIG. 5, the non-incision h3 at the top and bottom can be bent (bent, bent, bent) at right angles up and down (or at an acute or obtuse angle), respectively, as an axis of refraction, In this way, the integral mortar outlet and tube fixing bracket 120 is formed. In FIG. 5, the right side shows a bent state from the side, and the bar shown in the elliptical box below FIG. 5 is illustrated for better understanding.

In addition, a groove (hole) corresponding to the outer periphery (outer shape) of the tube 130 is cut (perforated) on the side of the bracket upper body (h122), which is the upper part of the body of the integrated mortar outflow and tube fixing bracket 120 cut in the shape of H. ) is provided as a tube fixing groove (h121). As shown in FIG. 6, the tube 130 can be inserted (via) the tube fixing groove h121 and fixed very firmly. In addition, the tube fixing groove (h121) can be formed by adding it to the bracket lower body (h123), which is the lower part of the H-shaped cut body, and then more firmly fix the lower end of the tube 130 through a predetermined portion. Mortar is injected (outflow, discharge) through the mortar outflow hole (h0).

As described above, in FIGS. 5 and 6, the upper body h122 of the upper portion formed by cutting out the H-shaped incisions h1 and h2 is bent upward at a right angle, and the lower body h123 of the lower portion is downward and formed at a right angle. It is bent to form an integral mortar outflow and tube fixing bracket 120. On the other hand, in the embodiment of FIG. 7, the lower body h123 is bent (bent) at an acute angle of a predetermined angle r1 that is lower than the right angle, so that the opposite side becomes an obtuse angle (r1 < r2). Through this, in particular, when the lower end fixing part 141 at the bottom of the tube 130 penetrates the ground along the spiral blade 120 and burrows into the ground, it is possible to reduce friction by receiving less resistance from soil.

Tube fixing groove (h121); Spiral wings 120; tube 130; fixing part 140; Bottom fixing part (141); The outer inlet (141a) of the lower fixing part (141); Tube bottom fixed inlet (141e);

Claims (1)

A body having a through hole therein;
Equipped with a spiral wing extending downward from the lower end of the body,
After passing through the through hole, the tube is installed to extend to the lower end of the spiral wing and moves the mortar;
It is provided at the bottom of the tube and has a cylindrical lower end fixing part for injecting mortar into the ground through an external inlet, and the inner periphery of the lower fixing part has a cylindrical shape, and a piston is mounted vertically in response to this. become,
An H-shaped cutting groove is formed on the surface of the spiral blade, the upper body of the upper part formed by the cutting groove is bent upward, and the lower body of the lower part is bent downward, at an acute angle r1. It is bent so that the opposite side becomes an obtuse angle to receive less resistance from the soil, and the cut groove is provided through press processing,
A tube fixing groove corresponding to the outer shape of the tube is formed in the upper body, and the tube is fitted and fixed to the tube fixing groove, so that mortar can be injected to the opposite side to which the lower fixing part is attached.
Ground reinforcement spiral bolt of natural power generation facility, characterized in that.

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