KR101950192B1 - Deep cement mixing equipment and method with upper and lower discharge function - Google Patents

Abstract

The present invention relates to a deep mixing method having upper and lower discharge functions comprising: a first process of inserting a pipe up to a required support layer while boring a soft ground; a second process of withdrawing a rod by a predetermined length; a third process of inserting again the pipe up to a required support layer while simultaneously rotating the rod and injecting a solidification material into a lower discharge hole; a fourth process of improving the soft ground; a fifth process of withdrawing the rod up to a surface layer of the soft ground while simultaneously rotating the rod in a reverse direction and injecting the solidification material into an upper discharge hole; and a sixth process of improving the surface layer of the soft ground. According to the present invention, provided is an effect of maximizing construction quality.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a deep-mixed mixing equipment and method having an upper and a lower discharge function,

The present invention relates to a deep mixing treatment apparatus and method having an upper and a lower discharge function, and more particularly, to an apparatus and a method for producing a continuous deep high-strength pile by discharging a high- To an apparatus and method for deep mixing treatment having upper and lower discharge functions.

In general, the deep mixing treatment equipment and method is intended to improve the soft ground by chemically solidifying the mixture of the fire (stabilizer, hardener) and the soft ground, and in particular, , And chemically solidified files (underground structures).

This deep mixing process includes a process of penetrating the rod (rod) into the ground, a process of drawing the rod in the upward direction by reversing the rod penetrated up to the design depth, And mixing with the ground.

However, in the related art, the opening and closing structure for discharging the fire to the upper and lower portions of the rod is complicated and frequent failures have occurred, which has resulted in a problem of lowering the construction efficiency.

In particular, in the past, since a fire is discharged to the upper and lower portions of a rod by using a single supply passage, when a deformed or clogged state occurs due to an external impact, a uniform file can not be installed in the ground, .

Korean Patent No. 10-0870722 (November 27, 2008) Korean Patent No. 10-0884285 (Feb. 18, 2009) Korean Patent No. 10-0940802 (2010.02.05) Korean Patent Publication No. 10-2011-0038337 (Apr. 14, 2011) Korean Patent No. 10-1284109 (2013.07.10)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

It is an object of the present invention to provide a deep mixing treatment apparatus and method having an upper and a lower discharge function capable of smoothly discharging a fire to upper and lower portions.

It is another object of the present invention to provide an in-depth mixing treatment apparatus and method having an upper and a lower discharge function capable of discharging a fire to upper and lower portions in accordance with intrusion, drawing, and rotation directions of a rod.

In order to accomplish the above object, the present invention provides a deep mixing treatment apparatus (100) having upper and lower discharge functions,

A rod 110 installed in the land-use dedicated equipment 10 or the marine dedicated equipment 20 so as to be able to be intruded into or pulled out from the ground; A drill 120 formed at the lower end of the rod 110 and excavated underground; An agitating part 130 formed at the lower part of the rod 110 so as to be positioned above the excavating part 120 and stirring the soft ground and the solid fire; A lower discharge part 140 formed at one side of the excavating part 120 for discharging a fire; An upper discharging unit 150 formed at one side of the rod 110 to discharge a solid fire so as to be positioned at an upper portion of the stirring unit 130; When the rod 110 is rotated forward to enter the lower discharge portion 140, the upper discharge portion 140 is supplied with a fire, and when the rod 110 is rotated due to the reverse rotation, the upper discharge portion 150 is supplied with a fire, And a high-fire supply unit (160).

Here, the high-fire supply unit 160 includes a body 161; A support shaft 162 installed at an upper portion of the rod 110 and inserted into the body 161 to be rotatable; A lower supply passage 163 connected to the lower discharge portion 140 at one side of the support shaft 162; An upper supply passage 164 connected to the upper discharge portion 150 on the other side of the support shaft 162; A lower fire supply part 165 formed on the inner side of the body 161 and connected to the lower supply passage 163 and having a fire supply hole 165a at one side; And a high-fire upper supply part 166 formed around the inside of the body 161 and connected to the upper supply passage 164 and having a high-fire supply hole 166a at one side thereof .

A high-fire passage 141 connecting between the lower discharge portion 140 and the lower supply passage 163; And a high-fire passage 151 connecting the upper discharge portion 150 and the upper supply passage 164.

And a lubricant supply portion 167 which is provided on the inner side of the body 161 to supply lubricant to the outer diameter of the support shaft 162 and has a lubricant supply hole 167a at one side .

A bearing 168a provided between the body 161 and the support shaft 162; And a fixture 168 for fixing the bearing 168a to the upper portion of the support shaft 162. [

In addition, in the deep mixing treatment method having the upper and lower discharge functions of the present invention,

A first step in which the rod is rotated in a normal direction to penetrate the soft ground into the required supporting layer while drilling;

A second step of drawing the rod to a predetermined length;

A third step in which the rod is rotated in a normal direction and a high-pressure fire is injected into the lower discharge port, and further introduced into a required supporting layer;

A fourth step of improving the soft ground by repeating the drawing and penetration while the rod reaches the required supporting layer and then rotating in the normal direction or the reverse direction to form the W shape;

A fifth step of rotating the rod in the reverse direction and drawing a hard layer to the surface layer of the soft ground while injecting a solid fire into the upper discharge port;

And a sixth step of improving the surface layer of the soft ground by intruding and pulling the rod in the forward rotation or the reverse rotation to form the N shape.

The second step is characterized in that the lower discharge port is drawn so as to reach the position of the upper discharge port.

Particularly, in the third step, when a falling signal of the GL sensor and a forward rotation signal of the rod are sensed, a high fire is automatically injected into the lower discharge port.

In the fifth step, when a rising signal of the GL sensor and a reverse rotation signal of the rod are sensed, the fifth step automatically injects a high fire into the upper discharge port.

At this time, the solidifying fire is characterized by including cement, coke, quicklime, fly ash, anhydrous gypsum, aggregate, sand, blast furnace slag or any one or more of them.

The present invention has the effect of maximizing the quality of construction by improving the required support layer of the soft foundation and the surface layer of the soft foundation by discharging the upper and lower fire.

Further, the present invention has the effect of improving the stirring efficiency of the soft ground and the solid fire by discharging the solid fire to the upper or lower part in accordance with the rotation direction of the rod.

In particular, the present invention has the effect that the rod can be uniformly and continuously applied to the lower end portion and the upper end portion of the underground structure (file) in which the quality is poorly ensured by intruding and drawing in W and N shapes.

In addition, the present invention has a simple process and structure, and can be applied not only to land but also to marine construction.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view for showing the construction of a deep mixing treatment apparatus having upper and lower discharge functions according to the present invention. Fig.
2 is a sectional view showing a configuration of a high-fire supply unit in the present invention.
FIG. 3 is a construction state reference diagram in which a deep mixing treatment apparatus having an upper and lower discharge function is applied to an apparatus dedicated to land use.
FIG. 4 is a construction state reference diagram in which a deep mixing treatment equipment having upper and lower discharge functions is applied to a marine dedicated equipment.

The above and other objects, features and advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

FIG. 1 is a schematic view showing the construction of a deep mixing treatment equipment having upper and lower discharge functions according to the present invention, FIG. 2 is a sectional view showing the construction of a high-fire supply unit according to the present invention, FIG. 4 is a view showing a construction state reference diagram in which a deep mixing treatment apparatus having an upper and a lower discharge function is applied to a marine dedicated equipment, and FIG. will be.

The present invention can be applied to a land-use dedicated equipment (10) or a marine dedicated equipment (20), and a rod (110) A drill 120 formed at the lower end of the rod 110 and excavated underground; An agitating part 130 formed at the lower part of the rod 110 so as to be positioned above the excavating part 120 and stirring the soft ground and the solid fire; A lower discharge part 140 formed at one side of the excavating part 120 for discharging a fire; An upper discharging unit 150 formed at one side of the rod 110 to discharge a solid fire so as to be positioned at an upper portion of the stirring unit 130; When the rod 110 is rotated forward to enter the lower discharge portion 140, the upper discharge portion 140 is supplied with a fire, and when the rod 110 is rotated due to the reverse rotation, the upper discharge portion 150 is supplied with a fire, And a high fire supply unit (160).

Particularly, the rod 110 is mounted on the lower portion of the driving means 12 and 22 which move up and down along the vertical direction of the land-based dedicated equipment 10 or the marine dedicated equipment 20, It can be forward or reverse.

Since the land specific equipment 10 or the marine dedicated equipment 20 and the readers 11 and 21 and the driving means 12 and 22 are technologies commonly used in the art, a detailed description of the operation principle and structure is omitted .

Meanwhile, the excavating unit 120 functions to perforate the required support layer (designed depth) of the soft ground, and has a spiral-shaped excavation blade and a plurality of perforated beads at a lower portion of the excavation blade to perform a smooth piercing operation .

In addition, the agitator 130 stirs the soft fire and the soft ground simultaneously with the rotation to construct a rigid structure (pile) in the ground.

At this time, when the rod 110 is viewed in a planar state, the stirring part 130 forms at least two stirring blades in a horizontal direction, and can perform a fire and stirring operation simultaneously with rotation.

In the present invention, the lower discharge part 140 may be formed at one side of the excavating part 120 to supply a solid fire to the required supporting layer, and it is also possible to inject a solid fire according to the penetration or drawing of the rod 110 have.

The upper discharging unit 150 is located above the agitating unit 130 and can inject a fire in the drawing process.

At this time, at the entrance of the lower discharge portion 140 and the upper discharge portion 150, the insulating layer is intercepted so as to prevent the inside of the ground from flowing into the inside, and a blocking film is formed to open and close so that the high fire can be discharged to the outside.

According to the present invention, the high-fire supply unit 160 may be configured to selectively supply a high-pressure fire to the lower discharge unit 140 or the upper discharge unit 150 in accordance with the rotational direction of the rod 110, do.

Here, the high-fire supply unit 160 includes a body 161; A support shaft 162 installed at an upper portion of the rod 110 and inserted into the body 161 to be rotatable; A lower supply passage 163 connected to the lower discharge portion 140 at one side of the support shaft 162; An upper supply passage 164 connected to the upper discharge portion 150 on the other side of the support shaft 162; A lower fire supply part 165 formed on the inner side of the body 161 and connected to the lower supply passage 163 and having a fire supply hole 165a at one side; And a high-fire upper supply part 166 formed on the inside of the body 161 and connected to the upper supply passage 164 and having a high-fire supply hole 166a at one side.

A high-fire passage 141 connecting between the lower discharge portion 140 and the lower supply passage 163; And a high-fire passage 151 connecting the upper discharge portion 150 and the upper supply passage 164, respectively, to smoothly supply and inject a fire.

And a lubricant supply unit 167 for lubricating the inside of the body 161 to supply lubricant to the outer diameter of the support shaft 162 and having a lubricant supply hole 167a at one side thereof And wear due to friction of the rotating support shaft 162 can be minimized.

In particular, the support shaft 162 is connected to the driving means 12 and 22 to receive the rotational force to rotate the rod 110.

A bearing 168a provided between the body 161 and the support shaft 162; And a fixture 168 for fixing the bearing 168a to the upper portion of the support shaft 162 to ensure smooth rotation of the support shaft 162. In addition, It is possible to prevent a phenomenon of deviating to the upper portion of the upper portion 162 of the housing.

Particularly, the high-fire lower supply part 165 plays a role of supplying a high-level fire externally supplied to the lower discharge part 140 through the high-fire supply hole 165a.

At this time, the high-fire lower supply part 165 is formed around the inside of the body 161 to smoothly supply a fire without regard to the rotation direction of the rod 110 and the support shaft 162.

In addition, the high-fire upper supply part 166 serves to supply a high-level fire externally supplied to the upper discharge part 150 through the high-fire supply hole 166a.

At this time, the high-fire upper supply part 166 is formed around the inside of the body 161 to smoothly supply a fire without regard to the rotation direction of the rod 110 and the support shaft 162.

In the present invention, the high-fire supply holes 165a and 166a include a separate open / close valve that receives a high-fire from the outside and can supply and shut off the high-fire.

In addition, in the deep mixing treatment method having the upper and lower discharge functions of the present invention,

As a method using a deep mixing treatment equipment having upper and lower discharge functions,

A first step in which the rod is rotated in a normal direction to penetrate the soft ground into the required supporting layer while drilling;

A second step of drawing the rod to a predetermined length;

A third step in which the rod is rotated in a normal direction and a high-pressure fire is injected into the lower discharge port, and further introduced into a required supporting layer;

A fourth step of improving the soft ground by repeating the drawing and penetration while the rod reaches the required supporting layer and then rotating in the normal direction or the reverse direction to form the W shape;

A fifth step of rotating the rod in the reverse direction and drawing a hard layer to the surface layer of the soft ground while injecting a solid fire into the upper discharge port;

And a sixth step of improving the surface layer of the soft ground by intruding and pulling the rod in the forward rotation or the reverse rotation to form the N shape.

Particularly, in the second step, the rod can be pulled out so that the lower discharge port reaches the position of the upper discharge port, and a space can be secured so as to inject the solid fire into the drilled hole drilled in the ground.

On the other hand, in the third step, if the falling signal of the GL sensor and the forward rotation signal of the rod are sensed, the high efficiency fire can be automatically injected into the lower discharge port to improve the construction efficiency.

In the fourth step, the rod is drawn and intruded repeatedly so as to be formed in a W-shape so that a rigid underground structure can be constructed.

In addition, when the rising signal of the GL sensor and the signal of the reverse rotation of the rod are sensed, the fifth step may automatically inject the fire to the upper discharge port to improve the construction efficiency.

Particularly, the sixth step can reinforce and improve the surface layer of the soft ground by again agitating the soft ground and the solid fire by constructing the rod so as to penetrate and pull out and form N-shaped.

In the present invention, the above-mentioned fireproofing includes cement, coke, quicklime, fly ash, anhydrous gypsum, aggregate, sand, blast furnace slag or any one or more of them.

Although the embodiments of the present invention have been described above in detail, it is to be understood that the scope of the present invention is not limited to the above embodiments and that various changes and modifications may be made without departing from the scope of the present invention. Of course.

10: Equipment for land use only
11: Reader 12: Driving means
20: Marine dedicated equipment
21: Reader 22: Driving means
100: In-depth mixing treatment apparatus having upper and lower discharging functions of the present invention
110: rod (rod) 120: excavation part
130: agitating part 140: lower discharge part
141: high fire passage 150: upper discharge portion
151: high fire passage 160: high fire supply unit
161: body 162: support shaft
163: Lower supply passage 164: Upper supply passage
165: Lower fire supply part 165a: High fire supply part
166: Upper fire supply part 166a: High fire supply part
167: Lubricant supply part 167a: Lubricant supply part
168: fixture 168a: bearing

Claims (10)

A rod which is installed in a dedicated land equipment or a marine dedicated equipment so that it can be intruded into or pulled out from the ground; An excavator formed at the lower end of the rod and excavated underground; An agitator formed at a lower portion of the rod so as to be positioned at an upper portion of the excavating portion to agitate the soft ground and the solid fire; A lower discharge part formed at one side of the excavating part and discharging a fire; An upper discharging portion formed at one side of the rod so as to be positioned at an upper portion of the agitating portion to discharge a fire; And a high fire supply unit for supplying and discharging a high fire to the lower discharge unit when the rod rotates forward and supplying and discharging a high fire to the upper discharge unit when the rod rotates reversely,
Wherein the solidification supply unit comprises: a body; A support shaft installed on an upper portion of the rod to be inserted into the body and rotatable; A lower supply passage connected to the lower discharge portion at one side of the support shaft; An upper supply passage connected to the upper discharge portion on the other side of the support shaft; A lower flame supply unit connected to the lower supply passage formed on the inner side of the body and provided with a flame supply hole at one side; And a high-fire upper supply part connected to the upper supply passage and having a high-fire supply hole formed on one side of the body,
A high-fire passage connecting the lower discharge portion and the lower supply passage; And a high-fire path connecting the upper discharge portion and the upper supply passage,
And a lubricant supply part formed on the inner side of the body to supply the lubricant to the outer diameter of the support shaft and having a lubricant supply hole on one side,
A bearing provided between the body and the support shaft; And a fixture for fixing the bearing to an upper portion of the support shaft. delete delete delete delete A deep mixing treatment method having an upper and a lower discharge function using a deep mixing treatment equipment having the upper and lower discharge functions of claim 1,
A first step in which the rod is rotated in a normal direction to penetrate the soft ground into the required supporting layer while drilling;
A second step of drawing the rod to a predetermined length;
A third step in which the rod is rotated in a normal direction and a high-pressure fire is injected into the lower discharge port, and further introduced into a required supporting layer;
A fourth step of improving the soft ground by repeating the drawing and penetration while the rod reaches the required supporting layer and then rotating in the normal direction or the reverse direction to form the W shape;
A fifth step of rotating the rod in the reverse direction and drawing a hard layer to the surface layer of the soft ground while injecting a solid fire into the upper discharge port;
And a sixth step of improving the surface layer of the soft ground while intruding and pulling the rod through normal rotation or reverse rotation to form the N shape. [7] The method of claim 6, wherein the second step is such that the lower discharge port is withdrawn to reach the upper discharge port position. [7] The method of claim 6, wherein the third step is a step of automatically injecting a fire into the lower discharge port when sensing a falling signal of the GL sensor and a forward rotation signal of the rod, Method. [7] The method of claim 6, wherein the fifth process automatically injects a high-pressure fire into the upper discharge port when sensing a rising signal of the GL sensor and a reverse rotation signal of the rod. Method. [7] The method of claim 6, wherein the solidification includes at least one of cement, coke, quicklime, fly ash, anhydrous gypsum, aggregate, sand, blast furnace slag, Method.

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