KR101347872B1 - Skin friction force improve the concrete pile and method of manufacture thereof - Google Patents

Abstract

The present invention, by increasing the adhesion between the concrete pile and cement milk by forming an adhesion increasing groove radially on the outer peripheral surface of the concrete pile to be built by the embedding method by forming a buried pile in which the concrete pile and cement milk behaves integrally Main surface friction of the pile can be improved as the diameter of the main surface of the embedded pile increases as the main surface fracture of the embedded pile is induced between the cement milk and the ground in the extreme condition that is continuously sinked without increasing the It relates to a concrete pile and a method of manufacturing the same to improve friction.

Description

Skin friction force improves the concrete pile and method of manufacture

The present invention relates to a concrete pile, and more specifically, to form an adhesion increasing groove radially on the outer peripheral surface of the concrete pile to be constructed by the embedding method to increase the adhesive force between the concrete pile and cement milk, concrete pile and cement milk integrally By forming a moving buried pile, the main surface of the buried pile is induced between the cement milk and the ground in the extreme state where the buried pile continues to sink without increasing the load. It relates to a concrete pile and a method of manufacturing the same to improve the principal frictional force that can improve the friction and tip support.

In general, the concrete pile to be built by the embedding method, as shown in Figure 1, using a casing and a screw auger (drill) to excavate the drilling holes 11 in the ground, cement in the drilled drilling holes 11 After injecting the milk 12, the concrete pile 10 is inserted into and punched in the drilling hole, it is installed in the process of curing the cement milk 12 injected into the drilling hole (11).

However, since the concrete pile is manufactured at the factory and delivered to the installation site, the concrete pile is stored on the ground surface of the site where a lot of dirt occurs, so that the concrete pile is inserted into the perforated hole with soil or various foreign substances attached thereto. Since the adhesion between concrete pile and cement milk decreases, the breakage of the main surface of the embedded pile occurs between the concrete pile and cement milk, so that the adhesion between the concrete pile and cement milk is not only small but also the occurrence area of the principal surface friction decreases. There was a problem of getting smaller.

In order to solve the above problems, a concrete file has been disclosed in Korean Patent Laid-Open Publication No. 10-2010-014193.

The previously published patent increases the adhesion between the concrete pile and cement milk at the embedded pile by attaching an annular reinforcing member to the fixing member installed in the concrete pile, but the production process of the concrete pile is complicated and the productivity is reduced and the concrete pile Many manpower and materials have been put into the production of the manufacturing cost had a problem of falling economic efficiency.

In addition, when drilling holes are drilled using a casing as the outer diameter of the concrete pile increases due to the reinforcing member attached to the outside of the concrete pile, the construction of the embedded pile becomes difficult due to the interference between the reinforcing member and the casing, or There was a problem that the construction cost increases for the increase in diameter.

Thus, in view of the conventional defects as described above, the object of the present invention, by increasing the adhesion between the concrete pile and cement milk by forming an adhesion increasing groove radially on the outer peripheral surface of the concrete pile to be constructed by the embedding method It is to provide a concrete pile and the manufacturing method thereof to improve the principal surface friction to form a pile pile buried cement and cement milk integrally acting.

In addition, another object of the present invention is to induce the fracture of the main surface of the embedded pile between the cement milk and the ground in the extreme state where the embedded pile is continuously settled without increasing the load, thereby increasing the diameter of the main surface of the embedded pile It is to provide a concrete pile and a method of manufacturing the same to improve the principal surface friction to improve the principal surface friction and the tip support of the pile.

Concrete piles of the present invention improve the principal friction,

Upper and lower shupan;

PC steel wire is coupled to the upper and lower shoe plate and tensioned;

A concrete layer which is poured and cured to accommodate the PC steel wire while being in close contact with the upper and lower shoe plates;

It is formed on the outer circumferential surface of the concrete layer to be spaced apart at regular intervals when the embedded pile construction, characterized in that it comprises an attachment force increasing groove formed to increase the adhesion with cement milk.

In addition, the manufacturing method of the concrete pile which is improved the main surface friction power of the present invention,

Forming upper and lower dies to form end portions of the concrete piles;

Forming upper and lower connection dies with protrusions protruding from the concrete piles to form an attachment force increasing groove;

Forming upper and lower formwork forming the middle and the upper end of the concrete pile;

Forming upper and lower pile dies by fixing the upper and lower dies and connecting the upper and lower dies and the upper and lower dies;

Seating the upper and lower shoe plates coupled to the PC steel wire and the PC steel wire to the lower pile die;

Pouring concrete into the lower pile formwork;

Mounting and fixing the upper pile formwork to the lower pile formwork, and tensioning the PC steel wire by pulling the upper and lower shoe plates by a tensioner;

Centrifugal molding by rotating the upper and lower pile dice in a state where the PC steel wire is tense, and then curing the steam to form concrete piles;

It characterized in that it comprises the step of dismantling the upper, lower pile formwork from the concrete pile.

According to the present invention, cement milk while reducing the strength decrease due to the reduction of the cross-sectional area of the concrete pile by forming the adhesion increase grooves radially on the outer circumferential surface of the concrete pile to be constructed by the embedding method in the same line or radially staggering the adhesion force increase grooves Increasing the bond strength of the bond to form a buried pile in which the concrete pile and cement milk behave integrally, inducing the breakage of the main surface of the buried pile between the cement milk and the ground in the extreme condition where the buried pile continues to sink without increasing the load. As the diameter of the main surface of the embedded pile increases, the main surface frictional force and the tip support of the concrete pile may be improved, thereby improving the economic efficiency of the embedded pile.

1 is a cross-sectional view of the construction of a typical concrete pile
2 is a perspective view of an embodiment of the present invention.
3 is an enlarged front view of FIG. 2;
4 to 7 is a front configuration diagram according to the position of the attachment force increase groove of one embodiment of the present invention
8 is a perspective view of another embodiment of the present invention
9 is an enlarged front view of FIG. 8;
10 to 13 is a front configuration diagram according to the position of the attachment force increasing groove of another embodiment of the present invention
14 is an exploded perspective view of the formwork for manufacturing the concrete pile of the embodiment of the present invention
Figure 15 is an exploded perspective view of the formwork for manufacturing the concrete pile of another embodiment of the present invention
16a to 16b is a manufacturing process diagram of the concrete pile in one embodiment of the present invention
17a to 17b is a manufacturing process diagram of the concrete pile according to another embodiment of the present invention
18 is a cross-sectional view of a construction state of the present invention

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 2 is a perspective view of the present invention.

Concrete pile 100 to improve the main surface friction of the present invention, the upper, lower shoe plate 110, 120 is configured, the PC steel wire 130 is coupled to the upper, lower shoe plate 110, 120 is tensioned Consists of the concrete layer 140 is placed and cured to accommodate the PC steel wire 130 while being in close contact with the upper, lower shoe plate 110, 120, and is fixed radially on the outer circumferential surface of the concrete layer 140 It is formed to be spaced apart when the built-up pile construction, it is configured to include an attachment force increasing groove 150 is formed to increase the adhesion with the cement milk 12, which will be described in more detail as follows.

In addition, as shown in Figure 8, the lower shoe plate 120 is configured to further include a concave indentation groove 121 is formed in the same line with the attachment force increasing groove 150.

As shown in FIG. 3 or FIG. 9, the adhesion force increasing groove 150 is formed as one of grooves recessed to the same depth from the outer circumferential surface of the concrete layer 140 or inclined grooves recessed at a lower end deeper than the upper end. do.

As shown in FIG. 4 or FIG. 10, the adhesion force increasing groove 150 is formed on the outer circumferential surface of the concrete layer 140 with the same width as the upper end and the lower end, or the upper end is inclined with a narrower width than the lower end. It is formed of either.

The adhesion force increasing groove 150 is formed to be spaced apart at a predetermined interval upward on the concrete layer 140.

The adhesion force increasing groove 150, as shown in Figure 5 or 11, the adhesion force increasing groove formed to face the concrete layer 140 to reduce the strength degradation due to the reduction in the cross-sectional area of the concrete pile 100 ( An upper end of 150 and an intermediate portion of the adhesion force increasing groove 150 ′ orthogonal to the adhesion force increasing groove 150 are formed to be spaced apart from each other at a predetermined interval.

The adhesion force increasing groove 150, as shown in Figure 6 or 12, the adhesion force increasing groove 150 of one side formed in the concrete layer 140 to reduce the strength degradation due to the reduction in the cross-sectional area of the concrete pile 100. The middle portion of the adhesion force increasing groove 150 ″ adjacent to the upper end of the adhesion force increasing groove 150 is formed in a stepwise manner so as to be spaced apart at regular intervals along the circumference of the concrete layer 140.

In addition, as shown in FIG. 7 or 13, the adhesion force increasing protrusion 160 protrudes on the outer circumferential surface of the concrete layer 140 in the same line as the adhesion force increasing groove 150 to increase the adhesive force with the cement milk 12. It is configured to include more.

When the pile is fixed to the lower shoe plate 120, the support layer penetration steel pipe 170 penetrates into the rigid support layer through the slime of the bottom surface of the drilling hole 11 and the strength of the lower portion of the lower through the support layer weakened by the struck It is configured to further include.

Next will be described the manufacturing process of the present invention concrete pile 100 configured as described above.

First, as shown in Figure 14 or 15, to form the upper and lower end die (210 ', 210) forming the end of the concrete pile 100, the upper, lower die (210', 210) Protruding portion 211 may be further formed on the inner circumferential surface to form an attachment force increasing groove 150a for increasing adhesion between the concrete pile 100 and the cement milk 12.

The protrusion 211 is for forming an attachment force increasing groove 150a at the end of the concrete pile 100, the protrusion 211 is coupled to the recess groove 121 recessed in the lower shoe plate (120).

In addition, the upper and lower connection dies 220 ', 220 to form an adhesive force increasing groove 150 is formed in the concrete pile 100, the upper and lower connection dies 220', 220, the upper It is preferable that the protrusion 221 forming the attachment force increasing groove 150 is formed to protrude one step on the inner peripheral surface of the lower connection dies 220 'and 220. This is because the upper and lower connection dies 220 'and 220 can be connected to each other.

Herein, the protrusions 211 and 221 are inclined to have grooves or upper end portions recessed from the outer circumferential surface of the concrete layer 140 with the upper and lower end portions recessed to the same depth from the outer circumferential surface of the concrete layer 140. If the attachment force increasing groove 150 is formed as an inclined groove, even if the main surface portion destruction of the embedded pile occurs between the concrete pile 100 and the cement milk 12, the adhesion force increasing groove 150 When the cement milk 12 filling the concrete pile 100 and the relative displacement causes the cement milk 12 to push the surrounding ground in the radial direction to increase the constraint pressure, so the concrete pile 100 and cement milk 12 The adhesion of the liver can be greater.

The protrusions 211 and 221 are formed such that the adhesion force increasing grooves 150a and 150 are formed on the outer circumferential surface of the concrete layer 140 with the same width as the lower end and the upper end, or the lower end is wider than the upper end. When the width of the upper end portion of the adhesion force increasing groove 150 is formed to be narrower than the width of the lower end portion, the cement milk 12 is filled into the adhesion force increasing groove 150 in a wedge shape, thereby increasing the adhesion force. Bonding force between the cement 150 to fill the groove 150 and the adhesion force increasing groove 150 may be maximized to increase the adhesion between the concrete pile 100 and the cement milk 12.

The protrusion 221 may further form a protrusion forming an attachment force increasing protrusion 160 to increase adhesion with the cement milk 12 to the protrusion forming the adhesion force increasing groove 150, which is a concrete layer 140. Decrease the cross-sectional area of the concrete pile 100 due to the adhesion force increasing groove 150 by reducing the depth of the adhesion force increasing groove 150 indented from the outer circumferential surface of the concrete layer 140 by the height of the adhesion force increasing protrusion 160 from the outer peripheral surface of the). While increasing the adhesion between the concrete pile 100 and the cement milk 12 while minimizing the increase in the outer diameter of the concrete pile 100 due to the attachment force increasing protrusion 160 formed on the outer peripheral surface of the concrete pile 100 By minimizing the construction of the embedded pile can be smoothly.

The protrusions 221 protruding from the inner circumferential surfaces of the upper and lower connection dies 220 'and 220 are radially formed on the inner circumferential surfaces of the upper and lower connection dies 220' and 220, and the upper and lower ends of the protrusions and the protrusions facing each other. Intermediate portions of the protrusions which are orthogonal to protrude may be formed on the same line, and the upper and lower connection dies 220 'and 220 are adjacent to the upper end of the protrusions based on one side of the protrusions 221 protruding on the inner circumferential surface thereof. The middle portion of the protrusion may be formed stepwise along the circumference of the inner circumferential surface of the upper and lower connecting dies 220 'and 220 so that they are located on the same line.

Here, the protrusion 221 is at least one such that the adhesion force increasing grooves 150 and 150 'and the adhesion force increasing grooves 150 and 150 "facing the outer circumferential surface of the concrete layer 140 overlap at least partially in the same line. However, by forming more than one, it is possible to reduce the strength degradation of the concrete pile 100 according to the reduction in the cross-sectional area of the concrete pile 100 due to the adhesion force increasing grooves 150, 150 ".

The upper and lower dies 210 'and 210 and the upper and lower connection dies 220' and 220 and the upper and lower dies 230 'and 230 are respectively connected and fixed to the upper and lower pile dies 200. ') (200) is formed, the upper and lower connecting dies 220', 220, should be connected to match the number of stages in which the attachment force increasing groove 150 is formed in accordance with the design drawings of the concrete pile (100).

Here, the upper and lower pile formwork 200 ', 200 is preferably fastened by fastening the flange of each form with a bolt / nut.

When the upper and lower pile formwork 200 ', 200 is formed in the above process, the lower steel formwork 210 and lower connection formwork 220 and the lower formwork 230 of the lower pile formwork 200 130) and the lower, upper shoe plate 120, 110 coupled to the PC steel wire 130 is seated.

In this case, when the protrusions 211 are not formed in the upper and lower dies 210 'and 210, the lower shoe plate 120 is not seated and the upper and lower dies 210 are not formed. When the projection 211 is formed in the 210, the lower shoe plate 120 having the recess groove 121 is seated. The recess groove 121 of the lower shoe plate 120 is a protrusion of the lower die 210. To 211.

When the PC steel wire 130 and the lower, upper shoe plate 120, 110 is seated in the lower pile formwork 200, the concrete is poured into the lower pile formwork 200, the upper portion in the lower pile formwork 200 The pile formwork 200 'is seated and fixed by fastening of bolts / nuts. When the protrusion 211 protrudes from the lower formwork 210 of the lower pile formwork 200, the upper formwork protrudes from the protrusion 211. When 210 'is seated on the lower die 210, the protrusion 211 of the upper die 210' should be coupled to the recess groove 121 of the lower shoe plate 120.

The PC steel wire 130 is tensioned by pulling the upper and lower shoe plates 110 and 120 seated on the upper and lower pile dies 200 'and 200 by a tensioner (not shown), and the PC steel wire ( In the state where 130 is tensioned, the upper and lower pile dies 200 'and 200 are centrifugally molded while rotating in a molding machine (not shown), and then the concrete pile 100 is formed, and steam curing is performed in an autoclave in a conventional manner. As shown in Figure 16a to 16b, to complete the manufacture of the concrete pile (100).

In addition, as shown in Figures 17a to 17b, the lower shoe plate 120 of the concrete pile 100 formed as described above is fixed by welding or bolt assembly when the construction of the embedded pile, the drill hole 11 by the struck ) The support layer penetration steel pipe 170 may be further fixed to penetrate the slime of the bottom surface and the relaxed support layer of the lower portion to penetrate the rigid support layer.

When the concrete pile 100 formed by the above process is drilled with a casing and a screw auger, and inserted into the punched hole 11 into which the cement milk 12 is injected, as shown in FIG. 18, The steel pipe 170 for penetration of the support layer of the concrete pile 100 penetrates the slime (not shown) of the bottom surface of the drill hole 11 and the support layer 20 'weakened in the strength of the lower hole of the drill hole 11 to support the rigid layer. Invaded by 20.

At this time, some of the slime (not shown) of the bottom of the cement milk 12 and the drilling hole 11 introduced into the support pipe penetration steel pipe 170 is moved to the hollow inside the concrete pile 100, the other part Inside the support layer penetration steel pipe 170 because it is discharged to the outside of the support layer penetration steel pipe 170 through the adhesion groove increasing groove 150a and the lower shoe plate 120 formed at the end of the concrete pile 100. The stiffness of the ground flowed into the furnace is increased, and the tip bearing capacity of the embedded pile is improved.

In addition, the cement milk 12 injected into the drilling hole 11 is hardened by being in close contact with a plurality of attachment force increasing grooves 150 and adhesion force increasing protrusions 160 radially formed at least one step in the concrete pile 100. Since the embedded pile is formed integrally with the concrete pile 100, the fracture surface of the embedded pile increases as the main surface fracture occurs between the cement milk and the ground in the extreme state in which the embedded pile continuously sinks without increasing the load. The main surface frictional force and the tip support of the concrete pile 100 is improved, the construction cost is reduced, and the number of construction of the concrete pile 100 is reduced to shorten the air and improve economic efficiency.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting in any ordinary or prejudicial sense. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100: concrete pile 110: upper shoe plate
120: lower shoe plate 121: recessed groove
130: PC steel wire 140: concrete layer
150: adhesion force increase groove 160: adhesion force increase protrusion
170: support pipe penetration

Claims (15)

Upper and lower shupan;
PC steel wire is coupled to the upper and lower shoe plate and tensioned;
A concrete layer which is poured and cured to accommodate the PC steel wire while being in close contact with the upper and lower shoe plates;
An adhesion force increasing groove formed radially on the outer circumferential surface of the concrete layer to be formed to increase adhesion to cement milk during the construction of the embedded pile;
It is fixed to the lower shoe plate when the construction of the pile, through the slime of the bottom of the drill hole by the struck through the support layer weakened strength of the lower portion of the support layer intruding into the rigid support layer is characterized in that it comprises a steel pipe for penetration Concrete pile that improves the principal friction.
delete The method according to claim 1,
The adhesion force increasing groove is a concrete pile, the main surface friction is improved, characterized in that formed in any one of the grooves recessed to the same depth from the outer peripheral surface of the concrete layer or inclined grooves recessed deeper than the upper end.
The method according to claim 1,
The adhesion force increasing groove, the concrete pile is improved in the main surface friction, characterized in that formed on the outer circumferential surface of the concrete layer is formed of one of the same width or the upper end is formed to be inclined narrower than the lower end.
The method according to claim 1,
The adhesion force increasing groove, the concrete pile to improve the main surface frictional force, characterized in that formed to be spaced apart at a predetermined interval upward in the concrete layer.
The method according to claim 1,
The adhesion force increasing groove, the upper end of the adhesion force increasing groove formed to face the concrete layer and the middle portion of the adhesion force increasing groove orthogonal to the adhesion force increasing groove in order to reduce the strength degradation due to the reduction of the cross-sectional area of the concrete pile on the same line Concrete piles with improved principal surface friction, characterized in that formed to be spaced apart a predetermined interval to position.
The method according to claim 1,
The adhesion force increasing groove, the middle portion of the adhesion force increasing groove adjacent to the upper end of the adhesion force increasing groove on the basis of the adhesion strength increasing groove formed on the concrete layer in order to reduce the strength degradation due to the reduction of the cross-sectional area of the concrete pile is located on the same line Concrete pile with improved principal surface friction, characterized in that formed in a stepped manner spaced apart at regular intervals along the circumference of the concrete layer.
The method according to claim 1,
Concrete piles to improve the principal frictional force is characterized in that it further comprises an adhesion force protrusion protruding to the outer circumferential surface of the concrete layer in the same line as the adhesion force increase grooves to increase the adhesion to the cement milk.
delete Forming upper and lower dies to form end portions of the concrete piles;
Forming upper and lower connection dies with protrusions protruding from the concrete piles to form an attachment force increasing groove;
Forming upper and lower formwork forming the middle and the upper end of the concrete pile;
Forming upper and lower pile dies by fixing the upper and lower dies and connecting the upper and lower dies and the upper and lower dies;
Seating the upper and lower shoe plates coupled to the PC steel wire and the PC steel wire to the lower pile die;
Pouring concrete into the lower pile formwork;
Mounting and fixing the upper pile formwork to the lower pile formwork, and tensioning the PC steel wire by pulling the upper and lower shoe plates by a tensioner;
Centrifugal molding by rotating the upper and lower pile dice in a state where the PC steel wire is tense, and then curing the steam to form concrete piles;
Disassembling the upper and lower pile formwork from the concrete pile;
When the pile pile construction is fixed to the lower shoe plate of the concrete pile formed by dismantling the upper and lower pile formwork, it is penetrated into the rigid support layer by penetrating through the support layer where the slime of the bottom of the drilling hole and the strength of the lower portion thereof were weakened by the struck. Method for producing a concrete pile, the principal surface friction is improved, characterized in that it comprises the step of installing a steel pipe for the support layer penetration.
delete The method of claim 10,
The method of manufacturing a concrete pile, the main surface friction is improved, characterized in that the protrusions forming the attachment force increasing groove on the inner peripheral surface of the upper, lower connection form is formed by one step.
The method of claim 12,
The protruding portion is a concrete pile, the principal surface friction is improved, characterized in that the upper end and the upper end of the protrusion formed radially opposite to the inner peripheral surface of the upper and lower dies, and the middle portion of the two ridges facing the protrusion is formed on the same line Manufacturing method.
The method of claim 12,
The protrusions are formed in a stepwise manner along the circumference of the inner peripheral surface of the upper and lower connection dies so that the middle portion of the protrusion adjacent to the upper end of the protrusion and the adjacent adjacent protrusions is located on the same line with respect to the inner peripheral surface of the upper and lower connection dies. Method of manufacturing concrete piles to improve the principal friction.
delete

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