KR0156888B1 - Excavating auger for foundation - Google Patents

Abstract

The present invention relates to an auger (Auger) to form a press-in hole of the pile in the construction of the pile during the foundation construction of the building, in particular, the excavation and drawing when forming the squirting portion having a predetermined width in the squary portion of the auger It relates to a foundation construction excavation auger that prevents collapse of the hole by consolidating the inner wall of the excavation hole by the additional tooth scoop portion.

Forming a slug portion on the outer periphery of the steel pipe, and to form an auger having a bit that is an excavation head at the end, a grate having a predetermined thickness in the middle of the screw portion to extend from the center of the steel pipe to the outer diameter of the screw portion It is done.

Accordingly, the sand layer and the stone layer can be drilled uniformly, and the hole wall is severely collapsed and the stone layer is consolidated and excavated, thereby protecting the hollow walls and preventing hole collapse. It is reduced to ½, and the ground with high porosity decreases the excavation volume by filling the hollow walls with soil, and by consolidating excavation, the density of the soil becomes high, which can greatly reduce the injection of cement or mortar. Due to the reduction, there is an effect of reducing the cost of industrial waste treatment.

Description

Auger for Excavation of Foundation Construction

1 is an overall configuration diagram of an excavator equipped with a conventional auger.

FIG. 2 is a partial detail view of the auger extracted from FIG.

3 is a partial detailed view of the auger according to the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a partial detailed view in an excavated state for explaining the operating function of the present invention.

* Explanation of symbols for main parts of the drawings

1: donor 2: reader

3: auger drive unit 4, 10: auger

5: rod 6: Skuryubu

7: bit 8: dent

9: Excavator 9a: Excavator Wall

The present invention relates to an auger (Auger) to form a press-in hole of the pile in the construction of the pile during the foundation construction of the building, in particular, the excavation and drawing when forming the squirting portion having a predetermined width in the squary portion of the auger It relates to a foundation construction excavation auger that prevents collapse of the hole by consolidating the inner wall of the excavation hole by the additional tooth scoop portion.

In general, in the construction of various buildings, piles are press-fitted on the soft ground in order to solidify the foundation.

Pile construction forms one of the most important foundations of building construction. Such pile construction is equipped with a drive device by a reader and a hoisting rope in a crane, and by using the drive device, the pile is piled by a punch or a steel pipe for preventing the collapse of the excavation site is buried. Excavators were to be excavated, the augers were removed, and mortar and piles were buried for pile construction.

In addition, the auger is installed in the PHC pile to perform the so-called mid-drilling method of press-fitting the pile by press input by a cylinder or the like while excavating the pile end, or after excavating by auger forming a hollow part, the auger is rotated a bit back. Methods have been put in place to insert mortars and piles and remove augers through the hollows of.

However, when the pile construction by the punching of the conventional one as described above was not made smoothly, there was a problem that the pile is press-buried buried, and the method of digging with auger and laying the pile after laying the steel pipe The casing must be processed first by steel pipes before pile construction, and after the casing treatment, excavation and press-fitting construction have been very cumbersome and time-consuming. The support layer around the construction was often collapsed, so the laying of piles was very difficult, and the pile construction was not strong, and mortar had a lot of groundwater in the ground even if mortar was injected to increase the firmness. There was a problem that the construction by injection is impossible.

In addition, the middle digging method is very expensive, but there is a problem in that the construction is difficult in the excess outflow area and the groundwater layer of groundwater.

The above methods are mainly aimed at solving the fundamental problem of failing to protect the excavation wall due to a certain scoop shape of the auger.However, the above methods focus on reinforcing and complementing the auger installation rather than improving the auger's own technology. Expensiveness, difficulty in construction methods, and the fact that the hole collapse is severe, have been limited to excavation of all layers.

Figure 1 shows the overall configuration of such a conventional excavator equipment. According to Figure 1, the basic construction pile construction equipment is connected to the lifter (1), the leader 2 installed vertically on the crane (1), the lifting rope installed on the top of the reader (2), the reader ( It includes an auger drive unit (3) guided to 2), an auger (4) connected to the auger drive unit (3) and installed downward.

The auger 4 forms a screw portion 6 on the outer periphery of the rod 5, which is a steel pipe, and has a bit 7, which is an excavation head, at the lower end thereof. Therefore, the auger 4 connected to the auger drive unit 3 rotates, and when the bit 7, which is an excavation head installed at its end, rotates along, the ground is excavated and drilled.

Excavated soil excavated by the bit (7) is discharged to the ground by being mounted on the screw portion (6) in the opposite direction of rotation of the auger (4). When the excavation hole is formed to a predetermined depth, the auger 4 is reversely rotated and drawn out from the excavation hole by reverse operation of the auger drive unit 3, and the P.C or R.C pile or steel pipe is inserted through the excavation hole.

At this time, the mortar is injected prior to the buried buried or the final pile is driven by the drop hammer after the inlet, so that the inserted pile is more firmly supported. However, when excavating only with such auger 4, the phenomenon that the soil of the excavation wall is broken down or collapses frequently during the excavation often occurs.

In particular, when the gravel layer, sand layer, or particle distribution where water is released is a loose sand layer or a rock layer, the collapse of the hole becomes more severe. If the hole collapses or the wall breaks down and piles up, it is impossible to enter the pile, and if forced to do so, a double operation is performed, in which a vibrator is to be hit again.

In addition, the amount of soil is increased, the cement or mortar injection is increased, it becomes difficult to establish a secure pile.

As shown in FIG. 2, it is not only a function of transporting the excavated soil to the ground by the thin sludge portion 6 formed on the auger, but also to not be able to consolidate or support the excavation wall, causing collapse. It will be a big factor.

Therefore, as a method for preventing such hole collapse phenomenon, as described above, the casing process by steel pipe is performed first, and then excavation and pile press construction are performed, or the auger is installed in the PHC pile to excavate the pile end, A so-called SAIP method was proposed in which a so-called medium digging method of press-fitting piles as an input was carried out, or a pile was excavated by an auger having a hollow portion and the pile was pressed through the hollow portion.

However, the casing treatment method is very cumbersome by overlapping construction steps, it takes a lot of work time, and furthermore, there is a problem of excessive generation of noise and collapse of the surrounding support layer, the heavy drilling method is very expensive installation cost There is a problem that the construction is difficult in the excessive outflow area of the groundwater and the stone bed, the method by the auger formed the hollow part had a problem that the work efficiency is lowered in the soil conditions loose grain distribution of the sand gravel layer.

An object of the present invention is to avoid the problem of the conventional auger described above, that is, to prevent hole collapse by the auger, in view of this to solve the various problems according to a separate hole collapse preventing device, the auger itself is excavated By consolidating the excavation wall, it prevents the collapse of the wall, and enables consolidation of the sand layer and all the layers without hole collapse by consolidation, and reduces the amount of excavated soil to reduce the cost of industrial waste treatment. In addition, to reduce the amount of cement injected, and to provide an auger for the basic construction excavation that will create a cheap construction cost.

In order to achieve this object of the present invention, the present invention forms a slug portion on the outer periphery of the steel pipe, and constitutes an auger having a bit that is an excavation head at the end, but the grate having a predetermined thickness in the middle of the screw portion The auger portion is formed to extend from the center of the screw portion to the outer diameter so as to condense the excavation wall when the auger rotates to achieve the excavation operation, thereby preventing the collapse of the excavation wall.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

3 is a partial detailed view of the auger according to the present invention, and FIG. 4 is a line A-A cross-sectional view of FIG. According to FIGS. 3 to 4, the foundation auger for construction 10 according to the present invention has a rod 5, which is a steel pipe, forms a central axis, and a scoop-like portion is formed on the length of the outer circumferential wall of the rod 5. 6 is connected to form a conventional auger configuration provided with a bit (7) as an excavation head at one end, the gush portion having a predetermined thickness (h) in the middle of the screw portion (6) ( 8) is formed by drawing a point improvement extending from the outer circumferential wall of the rod 5 to the outer diameter of the screw portion 6 (shown in FIG. 4).

At this time, the length of the point improvement of the gush portion 8 is about half the length of the arc portion of the squary portion 6, and the upper surface of the gush portion 8 is formed to be closed or open, the screw portion (6) Of course, it should be a structure and shape that does not obstruct the discharge path of the excavated soil.

The operation and effects of the auger 10 having such a configuration are described.

As shown in FIG. 1, the auger 10 according to the present invention is installed in the auger drive unit 3, and the auger drive unit 3 operates in one direction, that is, in a forward rotation, and thus is installed at an end thereof. Excavation is started by the forward rotation of the bit 7.

That is, as shown in FIG. 5, the excavated earth excavated by the bit 7 is pushed up by being placed on the squirrel portion 6, and when the excavated earth conveyed reaches the reinforcement 8, 8) the excavated excavated soil, which is formed by the spout flow curve starting from the rod 5, is guided to the outer surface of the extremity portion 8 and is consolidated to the excavated hole wall 9a of the excavation hole 9. .

Accordingly, the excavation hole wall 9a is compacted by the consolidation of the excavated soil that is pushed up in the state in which the extruding part 8 according to the abutment of the auger 10 rotates while consolidating the excavating hole wall 9a. To be prevented.

In addition, the soil that is broken during the excavation is reduced, the excavated excavated soil is added to the excavation wall, so that the amount of soil discharged to the ground is sharply reduced.

In addition, because the excavation hole wall is compacted by the additional part 8, a constant hollow wall is formed, and the amount of slimes accumulated in the lower portion of the excavation hole is reduced.

At this time, the gush portion 8 forms only a predetermined thickness h between both pitches of the scour portion 6, and the involute curve of the gush portion 8 is formed on the entire outer circumference of the scour portion 6. Because it does not form overly, the excavation path of the excavated soil is not greatly disturbed.

When the excavation is completed, the auger 10 is rotated back or pulled up to be pulled out, and then the pile 10 is pushed into the excavation hole 9 through which the auger 10 exits.

At this time, the excavation hole (9) is in a certain form because its inner wall is in a state of consolidation, it is possible to easily pull in the pile.

In addition, the front end portion of the retracted pile is settled immediately at the end of the excavation hole (9), is supported and embedded in a stable state without causing the settlement of the pile. This is because the accumulation of soil debris at the end of the excavator 9 is prevented by the consolidation of the shoal part 8.

As described above, the auger for foundation work excavation according to the present invention can be drilled uniformly in the sand layer and all the stone side by forming a bent portion on the squirrel, protection of the vacant wall by consolidating and digging the hard history of the hole collapse severely. Of course, hole collapse is prevented, and the amount of perforated residual soil is reduced to about ⅓ to ½ compared to conventional screw excavation, and the soil with high porosity is filled with soil to reduce the excavated soil volume, and consolidation excavation increases soil density. Therefore, the injection of cement or mortar can be greatly reduced, and the treatment cost of Ito (soil) is reduced, resulting in cost reduction in industrial waste treatment.

Claims (1)

In the auger having the rod 5 forming a central axis, the screw portion 6 is connected to the length of the outer circumferential wall of the rod 5, and provided with a bit 7, which is an excavating head, at one end thereof. In the middle of the (6), the toothing portion 8 having a predetermined thickness h is formed while drawing a point improvement extending from the outer circumferential wall of the rod 5 to the outer diameter of the screw portion 6. When the auger 10 is rotated by the construction of the auger 10 to perform an excavation operation, the auger portion 8 consolidates the excavation hole wall to prevent the collapse of the excavation hole wall. (Auger).