KR20070040274A - Soft ground quick drainage by vacuum pumping - Google Patents

Abstract

The present invention relates to a method for promoting water dehydration contained in a soft ground layer by a vertical drainage method in a land improvement method for the purpose of stabilizing a soft ground by installing a vertical drainage pipe having various shapes in a soft ground containing a large amount of water A vertical water pipe which has been cut to a predetermined length of an end portion of the vertical water pipe which is projected to the ground after the installation, a vertical water pipe sealing collet that connects the end portion of the vertical water pipe, T) -shaped connection port and a through-hole drainage pipe connecting the connection port with a vacuum pump,

It is possible to improve the soft ground by discharging the moisture in the soft ground through the channels of various vertical drainage materials buried in the ground by the suction force generated by the operation of the vacuum pump connected to the above- And a method for shortening the improved air without disturbing the ground of the ground.

According to the present invention, the closed type fixed socket is formed according to the shape and the standard of the vertical drainage material, so that it is shielded from the surrounding air when vacuum is sucked so that the moisture present in the ground can be easily discharged. (-) or (T) -shaped type connectors are connected to each other by screw fastening type or key coupling type, depending on the shape of the vertical drainage material and the depth of the ground. It is a technical point to discharge moisture in the soft ground in a short time to the ground.

Screw-type connection socket for PBD, keyed coupling type for PBD, cylindrical threaded connection socket, cylindrical key coupling type connection socket, cylindrical drained material close-up connection, PBD Drains tight junction, soft ground drain with vacuum pumping drain Device.

Description

 Soft ground quick drainage by vacuum pumping

FIG. 1 is a perspective view showing a state in which water in a soft ground is drained due to the operation of a vacuum pump by using the soft ground quick draining devices by the vacuum pumping of the present invention,

FIG. 2 is an exemplary view showing a spiral cylindrical draining material having a non-woven fabric coated on a cylindrical connecting port of the vacuum pumping drainage device of the present invention and being assembled by a screw-

3 is a view showing an example of assembling a spiral cylindrical draining material in which a non-woven fabric is wound on a cylindrical connecting port of a vacuum pumping drainage device of the present invention, and assembled by a coupling socket of a key-coupling type,

4 is an exemplary view showing that a PBD draining material in which a nonwoven fabric is covered with a PBD connection port of the vacuum pumping drainage device of the present invention is assembled by a key-coupling connection socket,

FIG. 5 is an exemplary view showing that a PBD draining material in which a nonwoven fabric is covered with a PBD connecting port of the vacuum pumping drainage apparatus of the present invention is assembled by a screw-fastening connecting socket,

FIG. 6 is a perspective view and a cross-sectional view showing a key-coupling type-shaped and T-shaped connection socket having an internal spring as a connection socket of the vacuum pumping drainage apparatus of the present invention,

FIG. 7 is a perspective view showing a -shaped and T-shaped connecting socket of a screw tightening type which is a connecting socket of the vacuum pumping drainage apparatus of the present invention,

8 is a perspective view of a screw-tightening type PBD connector and a key-coupling type PBD connector of the vacuum pumping drainage apparatus of the present invention,

9 is a perspective view of a screw-tight cylindrical drain fitting and a key-coupling type cylindrical drain fitting of the vacuum pumping drain of the present invention,

10 is an example of a method of forming a thick upper layer by sand using a horizontal drainage material generally used in a soft ground drainage method and draining water over a long period of time,

FIG. 11 is a view showing an example in which water is poured into an air tube by a soft ground improvement method according to a conventional technique, and a ground layer is pressed by the weight of water to perform compaction drainage.

Description of the Related Art

(1): Vacuum pump

(2): air intake path

(3): Drainpipes collecting section

(4): Water transfer path by pumping

(5): Reservoir

(6): water vertical feed path

(7): T-shaped connection socket

(8): - shaped connection socket

(9): Screw-type tightening fastener

(10): Operation upper layer portion

(11): Spiral hole drainage connector

(12): Water transport path in soft ground

(13): Soft ground

(14): Water transfer caused by adsorption by the internal inflow water of the helical cylindrical drain agent by pumping

(15): Underground cut spiral cylindrical drains

(16): Nonwoven fabric for preventing foreign matter from entering

(17): the space portion drilled by the mandrel

(18): Connecting hose

(100): Horizontal connection hose inlet of screw tightening connection socket

(101): connecting hose

(102): Vertical connection hose inlet of screw-tight connection socket

(103): Cylindrical connector threaded fastener

(104): Closure fixing unit

(105): Cylindrical connector

(106): nonwoven fabric

(107): Spiral cylindrical vertical drains

(108): perforation hole for water inflow

(200): Horizontal hose inlet of key coupling type connection socket

(201): connecting hose

(202): vertical hose inlet of key coupling type connection socket

(203): keyed coupling type hose inlet fitted in cylindrical connector

(204): key coupling type cylindrical draining fitting

(300): Keyed Coupling Type T-socket

(301): connecting hose

(302): PBD bracket with key coupling hose fastener

(303): PBD vertical drains

(400): Screw-in type T-socket

(401): connecting hose

(402): threaded sealing fastener

(403): PBD drained fitting with threaded fastening part

(404): PBD vertical drains

(500): Horizontal hose inlet of key couplings T-joint

(501): Inner mounting hose fixing holder

(502): Rubber ring for internal mounting sealing

(503): air and moisture transfer path

(504): the hose flow control section

(505): Key Coupling-shaped Socket

(600): External locking of screw-on connection socket

(601): Vertical hose inlet of T-shaped connecting socket

(602): Horizontal hose inlet of tee connecting socket

(603): Screw-type connection socket

(700): Key-coupling type hose inlet coupling part for PBD drain

(701): PBD drain reflow connector

(702): screw tightening hose inlet fitting

(800): key for couplings for cylindrical drain type hose inlet fitting

(801): Cylindrical drain mounting connector

(802): Drains connecting thread

(803): screw tightening hose inlet fitting

(900): Sand upper layer for soft ground consolidation

(901): Horizontal drainage

(902): vertical drains

(903): Soft ground

(904): Sewer

(905): Operation upper layer

(906): Vinyl air tube reservoir

(907): water for consolidation of soft ground

(908): Operation upper layer

(909): Horizontal drainage

(910): Vertical drainage

(911): Soft ground

(912): Reservoir

The present invention relates to a soft ground reinforcement which is connected to various vertical drainage materials used for a soft ground improvement device that drains moisture contained in a ground layer in a short period of time in the ground improvement work for soft ground stabilization treatment made up of a clay soil layer such as a coast and a lake A method of improving ground by vacuum suction of a vacuum pump by using a closed connector and a socket and a connecting port and a socket as described above,

The object of the present invention is to provide an apparatus and method for providing various types of vertical drainage materials, which are used in the soft ground improvement method, to the above-described dedicated sockets and connection ports to obtain ground stability in a short period of time by vacuum suction of a vacuum pump.

10, a plurality of various vertical drainage materials 902 buried in a soft ground 903 are connected to upper ends of stratification units 905 for work by a horizontal drain pipe 901 on the ground And a water tank 904 is connected to the rear of the horizontal drain pipe. The soft drainage ground layer compaction unit 900 using sand is formed in the horizontal drain pipe, and the earth pressure generated by the consolidation of the ground such as sand in the stratum part The water produced during the settlement of the ground is drained to the ground by the water channel of the vertical drainage and collected into the water tank through the horizontal drainage pipe. However, the above method is not suitable for the drainage period And it is disadvantageous in that a large amount of gravel or the like such as sand is required, resulting in a large cost.

In order to solve the above-mentioned problems, a method of promoting water drainage by an artificial soil consolidation apparatus has been proposed and used.

As shown in FIG. 11, a plurality of vertical drainage materials 910 vertically buried in the soft ground 911 are protruded to the outside of the operation upper layer portion, and the horizontal drainage material 909 is connected. There is provided an air tube water tank 906 and a method of increasing the water drainage rate by pressure dewatering by pressurizing the soil by placing a large amount of water in the water tank is used. However, considering the area of the soft soil, There is a problem that the vinyl tube is used and the durability of the vinyl is weak so that the water penetrates again to the ground in case of breakage and there is a troublesome operation to separate the water supply facility. Especially, There are inefficient and unproductive problems such as continuous water supply.

The present invention relates to an apparatus and a method for discharging water in a soft ground such as a landfill to the ground in a short period of time, A device for discharging the water in the soft ground to the ground by the suction of a vacuum pump by hermetically connecting a pair of drainage materials which are vertically buried in the ground and not draining by pressurizing the ground by artificially pressurizing the ground, The present invention relates to a method of stabilizing a ground in a short period by connecting one or several vacuum pumps to devices according to the area of the vertical drainage material, The connection hose is closed and the vacuum pump is activated to transfer water in the ground to the vertical drainage channel The aims of the present invention to provide a device for forced dehydration.

In order to accomplish the above object and to achieve the object of supplementing the conventional functions, the present invention is applied to a structure in which a cylinder type (vertical type) or a board type vertical drain (PBD) or Spiral Cylindrical Drain (SCD) and Cylindrical Wrinkle Drain (CWD) to prevent the outside air from flowing into the vertical drainage. ) - and connect the Screw Style or Key Coupling Style socket provided on the upper part of the connection port and the vacuum suction hose to each other by inter- or T-connection Connected to a vertical drainage material with a certain area using a socket and connected to a water collecting device connected to a vacuum pump. And the soft ground to the water in a short period of time by vacuum suction inside the stand, each of the vertical drain boards been discharged to the ground jipsugu device with the technical gist.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing an embodiment of a soft ground quick drainage apparatus using a spiral drainage material of the present invention as a vertical drainage material. The spiral drainage material 15 having a filtering nonwoven fabric 16 covered with a soft ground 13, And the vertical drainage material is buried in the ground by the consolidating device of the mandrel of the striking device, and the grounding device is installed in the space portion drilled by the underground striking device mandrel, The vertical drainage material 15 cut in the ground is cut into the spiral drainage material connection port 11 and the connection hose 18 which are formed in the same spiral and sealed form as the drainage material, And a screw-type tightening fastener 9 provided at the upper portion of the connecting port is used to prevent the air from being intercepted, The vertical drainage material is connected to the drainage pipe collecting part 3 connected to the vacuum pump 1 by mutually connecting the T-shaped connection socket 7 and the -shaped connection socket 8, and the vacuum pump 1 The water in the soft ground made of the clayey soil moves to the vertical drainage material due to the strong adsorption through the vertical drainage material 15 buried in the ground 12 and the water filtered in the filtration nonwoven fabric 16 passes through the perforated hole (4), (6) the water in the water collecting tank (3) and the water in the water collecting tank (3) are discharged to the inside of the water discharging material through the hose connecting the water discharging pipe And water is discharged to the external water storage tank 5 connected thereto.

FIG. 2 is a view showing a connection between a threaded fastening connection port and a T-shaped socket for a helical cylindrical drain material of a soft ground quick drainage device by vacuum pumping according to the present invention, a water inflow hole And a threaded connection port 105 composed of a spiral wire of the same size as the spiral cylindrical vertical drainage member 107 having a threaded connection portion 108 and a threaded connection portion 105. The connection hose 101 is fastened to the hermetically- (3) to connect the hose to the connecting hose, and connect the hose to the horizontal hose connecting part (100) and the T-shaped vertical hose connecting part (102) As shown in Fig.

3 is a view showing a connection between a key-shaped coupling end for a spiral cylindrical drain material and a tee-shaped socket of the soft ground quick-drainage device of the present invention. The spiral-shaped draining material is connected to a key- 204, and the connecting hose 201 is fastened to the key coupling connection port 203 formed at the upper end of the connection port to be connected to the vertical hose inlet port 202 of the T-shaped key coupling socket, Also, the hose is connected to the drainage material through the horizontal hose inlet port 200 formed in the left and right direction after connecting with the connection port in the same manner as described above, thereby connecting the vertical drainage material and the hose.

4 is a view showing that a PBD draining material in which a nonwoven fabric is covered with a PBD connection port of the vacuum pumping drainage apparatus of the present invention is assembled by a key coupling connection socket and has the same shape as the PBD 303 drainage material The hose 301 is connected to the PBD drain reusing connector 302 equipped with the key coupling hose fastening part, and is configured to be coupled with the T-shaped key coupling socket 300.

FIG. 5 is a view showing that PBD drains having nonwoven fabrics coated with PBD connectors of the vacuum pumping drainage apparatus of the present invention are assembled by screw-tightening connection sockets, The PBD drain material 404 is hermetically fixed to the PBD drain material connecting port 403 provided with the screw tightening fastening part and the hose is fastened to the hose by the threaded closing fastener 402 after the connection hose 401 is fastened, The hose 401 is configured to be fastened to the screw-type T-shaped socket 400.

FIG. 6 is a perspective view and a cross-sectional view illustrating a key-coupling type-shaped (505) and T-shaped connection socket (500) having an internal spring as a connection socket of the vacuum pumping drainage apparatus of the present invention and connected to a horizontal hose inlet When the hose is introduced, the hose is blocked by the inner mounting hose fixing holder 501 and the hermetic rubber ring 502 and is fixed by the hose flow control unit 504 which controls the hose which is connected to the inside by being blocked by the outside air, And only the movement of moisture is allowed to proceed through the air and the moisture transfer path (503) penetrated inside and through.

FIG. 7 is a perspective view showing a screw-tightening type-shaped and T-shaped connecting socket, which is a connecting socket of the vacuum pumping drainage apparatus of the present invention, in which a hose is injected into a hose inlet 601 of each of a T- And is tightened by an internal o-ring (not shown) by adjusting with a screw tightening external locking device 600 so that only air and moisture move through the hose.

8 is a perspective view of a connector for a screw-type PBD and a connector for a key-coupling type PBD of the vacuum pumping drainage apparatus of the present invention. The connector 701 has the same shape and size as the PBD embedded in the ground, The key-coupling type hose inlet coupling part 700 or the screw-tight type hose inlet coupling part 702 can be selectively installed according to the depth of the vertical drainage material buried in the ground and the amount of water flow in the ground.

9 is a perspective view of a screw-type cylindrical drain material connection port and a key-coupling type cylindrical drain material connection port of the vacuum pumping drainage device of the present invention, and is a special connection port having the same specifications as the cylindrical drains buried in the ground, So that the key-coupling type hose inflow coupling part 800 or the screw tight hose inflow coupling part 803 can be selected according to the depth of the cylindrical draining material buried in the soft ground and the state of the ground. .

(FIG. 8) (FIG. 9) and various sockets (FIG. 6) (FIG. 7), which can be connected to the respective vertical drainage members, Likewise, interconnecting each vertical drainage material,

A device for discharging moisture in the ground to the ground through a hose connected to the ground and a water channel of the vertical drainage material by suction force by vacuum pumping according to the present invention by connecting one or a plurality of vacuum pumps according to the area of the ground and the capacity of the vacuum pump And construction methods.

The present invention is not limited to the above-described specific preferred embodiments, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention as claimed in the claims. , And such changes are within the scope of the claims.

As described above, the present invention is an apparatus for arbitrarily forcibly discharging moisture contained in soft ground by suction and suction force generated by vacuum pumping using a vacuum pump. It is possible to control the pressure and the return to the modified layer as required by the vacuum pump and to adjust the inner diameter of the connection port and the socket connected to the vertical drainage material to have a more effective effect of improving the ground, It is possible to partially absorb the vacuum of the soft ground, and it is possible to prevent the generation of waste due to the economical loss that has been caused by the consolidation of the entire apparatus, the occurrence of the waste and the breakage of the vinyl tube, And it is possible to divide and divide partly according to the And is useful inventions which may have a reduced effect of air at the same time.

Claims (6)

In the method for discharging the moisture contained in the soft ground by using the vertical drainage and the horizontal drainage in the method of stabilizing the soft ground, And a hose (drain pipe) connected to a ground vacuum pump and various vertical drainage materials placed in the ground and the vertical drainage material are hermetically sealed to discharge the water in the soft ground to the ground by the operation of a vacuum pump. The method according to claim 1, Depending on the area of soft ground improvement and the amount of water content or the depth of vertical drainage installation, many vacuum pumps are used or the area of one end is made up of one construction area and the moisture of the ground is absorbed by the suction force of the vacuum pump, The method of discharging to the ground, The method according to claim 1, Vertical drainage and drainage material with air passages generated by the vacuum suction of the vacuum pump, blocking external air inflows. Screw-tight fittings and T-shaped and -shaped connecting sockets The method according to claim 1, The connection method of the above connector is not a screw type but a vertical drain connector having a one-touch type key-coupling type hose inlet coupling part and a T-shaped and -shaped connection socket The method according to claim 1, The shape of the connection port of the vertical drainage material may be a vertical drainage connection port formed in the same shape as various vertical drainage materials such as a square board type or a spiral cylindrical type and a half cylindrical type depending on the shape of the drainage material. 5. The method of claim 4, The connection port and the connection hose having the above-described connection portions and connection hose having the above-mentioned connection portions and connection hoses are formed in accordance with the moisture content of the soft ground, the installation depth of the vertical drainage material,

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