JPS6078019A - Stake support force reinforcing method and apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to piles, and more particularly to a method and apparatus for increasing the bearing capacity of piles, further strengthening the structure of piles, and reducing uneven settlement of piles.

Generally, in pile foundations, the bearing capacity and settlement amount of the pile is determined by the I? between the pile and the soil. It depends on the frictional force of 4J or the bearing force at the tip of the pile, and the structure of the internal body of the pile depends on the tensile force, compressive force, bending moment, etc. in response to earthquakes or building loads.

The present invention connects piles with beams to increase the bearing capacity of the piles, reduce uneven settlement of the piles, prevent buckling and destruction of the piles, and strengthen the internal structure of the piles. It is an object.

The measure 1iQ of the present invention will be explained based on the illustrated embodiment.

In FIG. 1, (11) is a polling device according to the present invention inserted into a pile hole (2). This polling device (1) has the following structure.

That is, (31f31 is a pair of left and right bowling balls, which are pivoted to the lower end of an iron support rod (4) with a hinge (5) so as to be vertically movable. As shown in FIG.
(71... protrudes laterally. On the other hand, a hydraulic motor f8) is connected to the base end of the rotating bit (6) as shown in figure ff13, and a hydraulic pump ( 10).

(11) is a hollow weight that is slidably fitted onto the support rod (4), and is connected to the lower part of the weight (11) via a hinge (12). The bases 611) of the rods (13) (13) are respectively pivotally connected, and the tips of these connecting rods (13) (13) are attached to the bowling balls (
31 (they are each pivotally mounted approximately at the center of 31).

(14) is a chain attached to the upper part 0j1) of the weight (11), and pulls the weight (11) upward. Note that the upper end of the support rod (4) is fixed to the ground.

These bowling balls (3) and the like are treated with anti-corrosion treatment to prevent corrosion.

Now, polling device 17 (1) with such a structure
Next, a case will be described in which adjacent pile holes (21F21) are communicated with each other and the piles are connected by beams.

First, as shown in FIG. 4, the polling device +11 of the present invention is inserted into one of the pile holes (2a) and fixed at a required depth.

Then, the chain (14) is loosened and the weight (11) is released. Then, the weight (11) starts to descend along the support rod (4), and in conjunction with this, the bowling ball (3+ +31) pivotally attached to the tip of the connecting rod (13) (13) moves down the support rod (4). It begins to expand laterally using the pin (5a) of the lower hinge (5) as a fulcrum.At the same time, the hydraulic pump (10) installed on the ground is activated and the hydraulic motor (
8) to rotate the rotating bit ((il (6)...).

Then, the screw head (71 [71...] protruding from the boring ball (3) comes into contact with the wall surface of the pile (2a) and starts drilling. In this way, ζ, the adjacent pile hole (
A fan-shaped channel (1, 52) communicating with 2b) is formed in the soil.

Next, pull the chain (14) upward to pull up the bowling ball (31).
ell, and then this polling device (
1), pull it up, insert it into the other pile hole (211), fix it again, and perform the same operation.

In this way, fan-shaped channels (1,5a) (15+
) are superimposed on each other, and these pile holes (2a) (2b
) is connected to approximately 11 types.

Finally, as shown in Figure 7, each pile hole (2a) (21
The work is completed by inserting the reinforcing bar cages (16) (IG) into the respective spaces and pouring concrete 1-.

At this time, the length of the top and bottom of the concrete 1-beam (+7) L)
If this is sufficient, there is no need for reinforcing reinforcing bars, etc., and it is sufficient to just pour concrete.

6 to 8 show other embodiments of the method of the present invention.

In this embodiment, a fan-shaped diagonal hole (15a) (15b) is formed in each pile hole (2a) (21)), and a cavity (18) is formed between these desks (2a) (2b). After forming the cavity (18), a reinforcing part such as reinforcing reinforcing bar +A is added.
' (19) is installed.

Immediately, as shown in Figure 8, on the side of the reinforcing bar cage (1G),
A reinforcing member (+9) such as a reinforcing reinforcing bar is pivotally attached to a position corresponding to the cavity (18) via a hinge (20) so as to be vertically movable, and this reinforcing member (19) is initially attached to the reinforcing bar. It is installed facing upward along the longitudinal direction of the basket (+6). The tip of a connecting rod (22) is pivotally attached to the approximately medium flame of this reinforcing member (19) via a hinge (21), and the proximal end of the connecting rod (22) is similarly connected to a hinge (23). The lower end of the rod (24) is pivotally connected via the .

(25) is a guide ring (2 (
5), and is installed so that it can freely slide in the vertical direction, and its lower end is connected to the male screw (2
7) is screwed together.

By pushing down this metal rod (25), the second screw rod (24) is driven down and the reinforcing member (19) moves laterally around the pin (20a) of the hinge (20) as a fulcrum. Each time it expands and is horizontally suspended within the cavity (18). Next, by rotating this metal rod (25) in one direction, since the metal rod (25) and the screw rod (24) are separated into one volume, reinforcing n goods, I (+9), are inserted into the cavity (18). Pull up the metal rod (25) while leaving it in place. Then, in the same manner as above, concrete 1- is poured to complete the work.

In this way, the piles (28) (2El)... are interconnected by the concrete I beams (1, 7) (17)..., so the piles (28) (2B)... Not only will uneven settlement not occur, but they will also reinforce each other, making it possible to firmly install a building (30) etc. on the pile foundation (29).

FIG. 13 shows another usage example of the polling device (1) of the present invention. As shown in the figure, one pile hole (2
) in the fan-shaped channel (I5
), the support rod (4) is rotated in the water direction and the operation is repeated to form a hemispherical cavity (3).
1). In this way, the supporting capacity of even a single pile can be increased.

Furthermore, by filling the pile hole (2) with a stabilizing liquid such as -\tosu・fi liquid during excavation work, the excavated wall surface can be held stably. Moreover, the soil scraped from the excavated surface mixes with the ben-1-nite liquid and becomes muddy, and is pumped to the surface. , Two can be easily pumped out, making the work more convenient.

In addition, by using a spirit level or 1-ranciso 1-, the position of the stake (2B) (2B) can be set accurately.
Concrete I/Beam (
17) can be accurately determined.

FIG. 14 shows a stable solution 4ji diagram. In the same figure (Δ), (Fl) indicates the hydrostatic pressure due to the benite liquid, and (Wl) is the weight of the soil that falls into the general pile hole (2). (a> is a virtual straight surface, (Yl)
is the frictional force acting along this sliding surface (a).

In this way, in order to prevent soil damage, it is necessary to
Wl> must be supported by hydrostatic pressure (F+) and frictional force (Yl).

In Figure 14 (I3), there is a fan-shaped channel (15
) is formed. In the figure, for the same reason as mentioned above, the weight of the soil ff1 (V/z) must be supported by the hydrostatic pressure (F2) of the hennite liquid and the frictional force (Y2) in the direction of the sliding surface (b).

However, this slip surface (b) is the fan channel (15)
This is after forming the . Note that the hydrostatic pressure (Fl) (F2) of the hetonite liquid is determined by its density and strength depending on the depth.

The present invention has the above configuration, and by using the apparatus and method of the present invention, the piles are connected by concrete beams such as square plates, so the effect is that it can support more loads than ordinary ones. There is.

[Brief explanation of drawings]

Fig. 1 is a front view showing the polling device according to the present invention installed in a pile, Fig. 2 is an enlarged front view, and Fig. 3 is a schematic diagram showing power transmission to the rotary pit 1-. , 4th
5 is a front view of the shelf width showing one embodiment of the method of the present invention, and FIG. 6 is a front view of the shelf width showing another embodiment. The figures are also plan views, Figure 8 is an enlarged view of the main parts of Figure 6, and Figure 9 is
Approximate FIR does not show the condition of LJ with concrete 1-beam installed between piles.
10 is a front view, FIGS. 11 and 12 are plan views, and FIG. 13 is a schematic diagram showing another example of use of the polling device of the present invention. figure,
FIG. 14 is a stability analysis diagram against slippage. (1) - Polling device; 6, f21 (28) (2b
) -Pile hole, (31---Bowling ball, (41-
Support rod, +(il-one rotation bi, 1., (15) (15a) (15bL--fan-shaped channel, (17)---concrete beam, (1B) (3+)
-Hollow, (2B) -One bow. -)゛＼1し１゛スI guj3;7i-4 11'4 Condolence 6 B1 Fig. 7 Fig. 13 Fig. 1 C1 b Fig. 9

Claims (1)

[Claims] 1. Adjacent pile holes are communicated with each other to form a cavity, and concrete 1 is poured into this cavity to form 1JJ1.
A method for strengthening pile bearing capacity characterized by forming a concrete beam inside. 2. A poling member that is attached to the lower end of the support inserted into the pile hole and can be expanded laterally, and a number is marked on the poling member, and the poling member is also expanded. A poling device characterized in that it consists of an excavating tool that sometimes excavates a lateral 1 (175).