KR101163217B1 - Drain device for suction drain method - Google Patents

Abstract

PURPOSE: A drain device for a vacuum preloading method is provided to improve drainage efficiency by properly controlling the water level of a drain tank and a sump tank. CONSTITUTION: A drain device for a vacuum preloading method comprises a sump tank(110), a vacuum pump(130), a drain tank(180), a water level sensing pipe(150), and a float(170). Pore water discharged from a drain board and air flows into the sump tank through a water collection pipe(120). The vacuum tank vacuumizes the inside the sump tank. The drain tank is located under the sump tank, and the pore water drained through a water flow pipe(140) flows into the drain tank through an inlet pipe(190). The water level sensing pipe is vertically connected between the water flow pipe and the inlet pipe. The float is formed inside the water level sensing pipe.

Description

Drain device for individual vacuum consolidation method

The present invention relates to a drainage device for individual vacuum consolidation method, the individual vacuum consolidation method drainage device for draining a large amount of pore water contained in the ground of the soft ground through the permeable drainage, the collection tank into which the pore water and air flows And, a drainage tank into which the gap water of the collecting tank flows down to the lower side, a vacuum pump for vacuuming the collecting tank and the drainage tank, and is connected in a vertical direction between the collecting tank and the drainage tank, The water level detecting tube having an increased diameter and the float provided inside the water level detecting tube and connected to the first detecting sensor are provided to enable the water level of the drainage tank and the collecting tank to be properly adjusted by the float operation. There is no need to stop the drainage operation for adjustment, and the drainage device for the individual vacuum consolidation method with improved drainage efficiency.

In general, a vertical drain method is used as an improvement method for improving the strength of soft ground.

The vertical drain method is divided into a sand drain method, a pack drain method, a paper drain method, and the like according to drainage materials.

The sand drain method is a typical method of the vertical drainage method, and is a method for promoting the drainage effect by artificially pouring sand piles vertically in the soft ground using sand as drainage material, and the pack drain method is the sand drainage method. Similar to the drain method, but using a sand and a packet net that can hold the sand as a drainage, it is a method for promoting the drainage effect by artificially pouring vertically in the ground of the soft ground.

The paper drain method (aka plastic drain method) is also the same as the sand drain method. Similar, but in the form of a band wrapped with a textile fiber in a plastic core, the drain effect is generally less than the design calculations, and the construction cost is expensive, but there is an advantage that the construction management is easy, but this also has the advantage of efficiency and applicability Firm reliability is not secured.

The general trend is that in the case of ultra soft ground with a high water content, the pack drain method is used in the deep depth, and the paper drain method is used in the relatively low depth, and the sand drain is used in the soft ground where the water content is not very high. There is a trend in which construction methods are being used.

The demand for industrial and residential land is increasing along with economic growth throughout society, but it is difficult to secure business districts with good ground conditions. In addition, for the efficient and balanced development of the national territory, new space development is under way not only in areas with good soil but also in areas with weak soil. As a result, it is inevitable to change the business area to soft ground, which has poor ground characteristics and poor development conditions, in order to secure land. Therefore, active measures are required.

In addition, all of the above methods require an additional loading method (pre-loading method), so a large amount of soil is required when dealing with a large amount of soft ground.

However, considering the fact that environmental awareness has recently emerged, the problem of environmental destruction can be a very difficult problem to secure the earth and sand.

In addition, the loaded load may cause the shear failure of the ground due to sudden increase of shear stress, so it is necessary to carry out the step loading for a long time to avoid this, which is the increase of all expenses necessary for construction such as labor cost, before or after construction The large amount of work required to apply and remove loads, prolonged construction period due to stage fill, shear failure or unequal settlement due to the weight of the loaded load, and large shear stresses in the soft layer near the end of the loading site in partial loading At the same time, there were many defects in many aspects, such as the problem of causing significant shape deformation at the same time as the loading and not effective consolidation.

To compensate for this drawback and reduce air, a vacuum consolidation method was proposed in 1952 by Kjellman, Sweden.

Korean Patent Publication No. 2006-0096224 (published on Sep. 11, 2006) discloses a soft ground improvement method using a vacuum consolidation method.

On the other hand, most of the drainage system using vacuum consolidation method is difficult to continuously operate in the process of adjusting the water level of the pore water drained through the drainage material, and the operation efficiency decreases accordingly, so that the continuous technology development of the drainage system using the vacuum consolidation method This is necessary.

Korean Laid-Open Patent No. 2006-0096224 (published Sep. 11, 2006, Title: Soft ground improvement method and drain material by vacuum consolidation)

The present invention has been made in order to solve the above problems, the collection tank in which the gap water and air is introduced, the drain tank in which the gap water of the collection tank flows to the lower side, and the collection tank and the drain tank in a vacuum state It is connected in a vertical direction between the vacuum pump to make, the collecting tank and the drainage tank, the water level sensing pipe to increase the diameter of the pipe in a certain section, and the float is provided inside the water level sensing pipe, connected to the first sensing sensor By being provided, it is possible to appropriately adjust the water level of the drainage tank and the collecting tank by the operation of the float, there is no need to stop the drainage work for water level control, and relates to a drainage device for individual vacuum consolidation method with improved drainage efficiency.

The drainage device for individual vacuum consolidation method of the present invention is a drainage device for individual vacuum consolidation method for draining a large amount of pore water contained in the ground of the soft ground through a permeable drainage, wherein the void water and air discharged from the drainage water collection pipe A collecting tank 110 introduced through 120; Vacuum pump 130 to make the interior of the collecting tank 110 in a vacuum state; Located in the lower direction in the gravity direction than the collecting tank 110, the gap water of the collecting tank 110 drained through the collecting tank flow pipe 140 flows down by gravity to flow through the drain tank inlet pipe 190 A drain tank 180; A water level sensing pipe 150 connected in a vertical direction between the water collecting tank flow pipe 140 and the drainage tank inflow pipe 190 and increasing in diameter in a predetermined section; And a float 170 provided inside the water level detection tube 150 and connected to the first detection sensor 161. Characterized in that it comprises a.

In addition, the drainage device 100 for the individual vacuum consolidation method according to an embodiment of the present invention includes a first control valve 210 for adjusting the pressure balance between the collection tank 110 and the drainage tank 180; A second control valve 220 connected to an upper region of the drain tank 180 to control air inlet; A third control valve 230 connected to a lower region of the drain tank 180 to control drainage of the gap water stored therein; It may contain.

In addition, the drainage device 100 for the individual vacuum consolidation method according to an embodiment of the present invention is the first control valve 210 according to the position information of the float 170 detected by the first detection sensor 161. ), The second control valve 220 and the third control valve 230 may include a control unit 200 for controlling the operating state.

In addition, the drainage device 100 for the individual vacuum consolidation method according to an embodiment of the present invention detects the water level of the drain tank 180, the second detection sensor for transmitting the detected water level information to the control unit 200 ( 162 may be further included.

In addition, the drain tank inlet pipe 190 according to an embodiment of the present invention has a U-shape in which one end is located in the drain tank 180 and the other end is connected to the water level sensor 150 from the outside. It is a pipe, the end portion located inside the drain tank 180 may be installed adjacent to the lower side of the drain tank 180.

In addition, the drainage device 100 for the individual vacuum consolidation method according to an embodiment of the present invention is located on the bottom surface of the collecting tank oil pipe 140, the collecting tank 110, can protrude a predetermined height upwards. have.

In addition, the drainage device 100 for the individual vacuum consolidation method according to an embodiment of the present invention may further include a fourth control valve 240 formed adjacent to the bottom of the collecting tank 110.

The drainage device for the individual vacuum consolidation method of the present invention includes a collecting tank into which the pore water and air are introduced, a draining tank into which the gap water of the collecting tank flows downward, and a vacuum pump for making the collecting tank and the drain tank into a vacuum state; Is connected in the vertical direction between the collecting tank and the drainage tank, and the water level detecting tube is increased in diameter in a predetermined section, and is provided inside the water level detecting tube, and the float is connected to the first detecting sensor. It is possible to properly adjust the water level of the drain tank and the collecting tank by the operation of the need not to stop the drainage work for the water level control, there is an advantage that the drainage efficiency is improved.

In addition, the individual vacuum consolidation method of the drainage system of the present invention is the pressure and drainage conditions of the collecting tank and the drain tank in the control unit through the water level information and the position information of the drain tank obtained through the first sensor and the second sensor By appropriately adjusting, there is an advantage that the operating efficiency and stability can be improved.

1 is a schematic view showing a drainage apparatus for individual vacuum consolidation method according to the present invention.
Figure 2 is a schematic view showing a state in which the normal drainage device for individual vacuum consolidation method according to the invention.
Figure 3 is a schematic view showing a state in which the water level of the drain tank is adjusted in the individual vacuum consolidation method for drainage according to the present invention.
Figure 4 is a schematic view showing another embodiment of the drainage for individual vacuum consolidation method according to the present invention.

Hereinafter, with reference to the accompanying drawings, the drainage device for individual vacuum consolidation method of the present invention as described above will be described in detail.

1 is a schematic view showing a drainage apparatus for individual vacuum consolidation method according to the present invention, Figure 2 is a schematic diagram showing a state in which the normal operation of the individual vacuum consolidation method for drainage method, Figure 3 is in accordance with the present invention Figure 4 is a schematic view showing a state in which the water level of the drain tank is adjusted in the individual vacuum consolidation method for drainage, Figure 4 is a schematic view showing another embodiment of the individual vacuum consolidation method for drainage.

The drainage device for the individual vacuum consolidation method according to the present invention is connected to the drainage material inserted into the ground and serves to discharge the gap water drained through the drainage material.

As shown in Figure 1, the individual vacuum consolidation method of the drainage apparatus 100 of the present invention is a collecting tank 110 and the water collection tank 110, the pore water and air discharged from the drain material is introduced through the collecting pipe 120 110 includes a vacuum pump 130 to make the inside of the vacuum state.

At this time, the drain material may be connected to each other by the collecting pipe 120 and the T-shaped connector or a straight connector.

In addition, the individual vacuum consolidation method drainage device 100 of the present invention is located in the lower direction in the gravity direction than the collecting tank 110, the number of gaps of the collecting tank 110 drained through the collecting tank flow pipe (140) It includes a drain tank 180 flows down by the gravity and flows through the drain tank inlet pipe 190.

In addition, the drainage device 100 for the individual vacuum consolidation method of the present invention is connected in a vertical direction between the collecting tank oil pipe 140 and the drainage tank inlet pipe 190 and the water level detection to increase the diameter of the pipe in a certain section. The pipe 150 and the water level detection tube 150 is provided in the interior and is further formed with a float 170 connected to the first detection sensor 161.

In addition, the individual vacuum consolidation method drainage device 100 of the present invention is a first control valve 210 for adjusting the pressure balance between the collecting tank 110 and the drainage tank 180, and the drainage tank 180 The second control valve 220 is connected to the upper region of the control air inlet, and the third control valve 230 is connected to the lower region of the drain tank 180 to control the drainage of the gap water stored therein. can do.

In addition, the individual vacuum consolidation method drainage apparatus 100 of the present invention is the first control valve 210, the second according to the position of the float 170 automatically detected by the first detection sensor 161. The control valve 220 and the third control valve 230 may further include a control unit 200 for controlling the operating state.

In general, the individual vacuum consolidation drainage apparatus has a large amount of pore water drained from the drainage material at the beginning, and in this case, even if the interior of the collecting tank is in a vacuum state, it is difficult to evaporate all of the moisture inside.

Accordingly, the individual vacuum consolidation method drainage device 100 of the present invention is designed to facilitate the treatment of the pore water that does not evaporate.

Referring to Figure 4, the individual vacuum consolidation method for drainage method of the present invention,

First, the gap water and air discharged from the drainage extension unit 180 are introduced into the collection tank 110 through the collection pipe 120.

When the first control valve 210 is opened and the second control valve 220 and the third control valve 230 are closed, the collection tank 110 and the drain tank 180 are the vacuum pump. The interior of the vacuum is maintained by the operation of the 130 to achieve a pressure balance, accordingly, the gap water of the collecting tank 110 is discharged to the collecting tank flow pipe 140 by gravity, the water level detection It is introduced into the drain tank 180 through the pipe 150 and the drain tank inlet pipe 190.

When this state is maintained for a predetermined time and the water level of the drainage tank 180 becomes more than a certain height, the height of the float 170 located inside the water level sensing tube 150 is gradually increased, and thus the float The location information of 170 is transmitted to the controller 200 through the first detection sensor 161.

At this time, the control unit 200 closes the first control valve 210 and opens the second control valve 220 and the third control valve 230, thereby reducing the air pressure in the drain tank 180. Raise.

The float is raised by the air pressure introduced through the second control valve 220, the water level in the drain tank inlet 190 is raised to the upper side, and seals the water level detection tube 150. Accordingly, the collection tank 110 can maintain a sealed state, and the gap water discharged from the drainage extension unit 180 is normally introduced through the collection pipe 120.

At the same time, the drain tank 180 maintains a predetermined level or less by discharging the gap water stored therein through the third control valve 230, and the control unit 200 detects the second adjustment. The valve 220 and the third control valve 230 are closed again, and the first control valve 210 is opened to maintain the pressure balance of the collection tank 110 and the drain tank 180.

The float 170 is moved downward again by the potential energy to open the water level detection tube 150, and accordingly, the individual vacuum consolidation method drainage device 100 of the present invention is normally the sump tank water supply pipe ( Through 140, the gap water can be sent down to the drain tank 180 side.

At this time, the drainage tank inlet pipe 190 has a predetermined amount of gap water is accommodated therein even when the second control valve 220 and the third control valve 230 is open for the operation of the float 170. In order to easily secure the head pressure, it is preferable that the one end is a U-shaped pipe which is located inside the drain tank 180 and the other end is connected to the water level detecting tube 150 from the outside.

On the other hand, the collecting tank flow pipe 140 is located on the bottom surface of the collecting tank 110, by projecting a predetermined height upwards, foreign matter mixed in the gap water introduced through the collecting pipe 120 is the collection tank ( 110, it is preferable to sink to the bottom so that the gap water flows into the drain tank 180 in a filtered state.

In addition, the collection tank 110 may further include a fourth control valve 240 formed adjacent to the bottom surface, the fourth control valve 240 is to maintain the drainage device for the individual vacuum consolidation method of the present invention. And it is opened during the repair serves to drain the foreign matter that has sunk into the collecting tank (110).

In addition, as shown in Figure 4, the individual vacuum consolidation method for drainage device 1 of the present invention provides a second detection sensor 162 for transmitting the water level information of the drain tank 180 to the control unit 200. It may be formed to include more.

Drainage device 100 for the individual vacuum consolidation method of the present invention is the second control valve 220 and the third control valve 230 is opened and the first control valve 210 is closed of the drain tank 180 When the water level of the drainage tank 180 sensed by the second detection sensor 162 is below a predetermined level in a state where drainage is made, the second control valve 220 and the third control valve 230. ) And to open the first control valve 210 to stop the drainage, thereby maintaining the pressure balance.

At this time, the individual vacuum consolidation method for drainage apparatus 100 of the present invention is provided with a timer in the control unit 200 instead of the second detection sensor 162, and automatically passes the second control valve 220 after a predetermined time. The third control valve 230 may be closed and the first control valve 210 may be opened.

Accordingly, the drainage device for the individual vacuum consolidation method of the present invention does not need to stop the operation for adjusting the water level, there is an advantage that the drainage efficiency is improved, so that the stabilization work of the soft ground can proceed quickly.

In addition, the individual vacuum consolidation method for drainage of the present invention is controlled by the position information of the float obtained through the first detection sensor 161 and the water level information of the drain tank 180 obtained through the second detection sensor 162 ( In 200, the pressure and drainage conditions of the collection tank 110 and the drainage tank 180 are appropriately adjusted, thereby improving operating efficiency and stability.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

100: drainage device for individual vacuum consolidation method
110: collecting tank 120: collecting pipe
130: vacuum pump 140: collecting tank water pipe
150: water level sensor
161: first detection sensor 162: second detection sensor
170: float 180: drainage tank
190: drainage tank inlet pipe
200:
210 to 240: first to fourth control valve

Claims (7)

In the individual vacuum consolidation method for draining a large amount of pore water contained in the ground of the soft ground through the permeable drainage,
A collecting tank 110 through which the gap water and air discharged from the drainage material are introduced through the collecting pipe 120;
Vacuum pump 130 to make the interior of the collecting tank 110 in a vacuum state;
Located in the lower direction in the gravity direction than the collecting tank 110, the gap water of the collecting tank 110 drained through the collecting tank flow pipe 140 flows down by gravity to flow through the drain tank inlet pipe 190 A drain tank 180;
A water level sensing pipe 150 connected in a vertical direction between the water collecting tank flow pipe 140 and the drainage tank inflow pipe 190 and increasing in diameter in a predetermined section; And
A float 170 provided inside the water level detection tube 150 and connected to the first detection sensor 161; Individual vacuum consolidation method for drainage, comprising a.
The method of claim 1,
The individual vacuum consolidation method for drainage device 100
A first control valve 210 for adjusting a pressure balance between the collection tank 110 and the drain tank 180;
A second control valve 220 connected to an upper region of the drain tank 180 to control air inlet;
A third control valve 230 connected to a lower region of the drain tank 180 to control drainage of the gap water stored therein; Individual vacuum consolidation method for drainage, comprising a.
The method of claim 2,
The individual vacuum consolidation method for drainage device 100
Control the operation of the first control valve 210, the second control valve 220 and the third control valve 230 according to the position of the float 170 sensed by the first detection sensor 161. Individual vacuum consolidation method for drainage, characterized in that it comprises a control unit 200.
The method of claim 3,
The individual vacuum consolidation method for drainage device 100
And a second detection sensor (162) for detecting the water level of the drain tank (180) and transmitting the detected water level information to the control unit (200).
The method of claim 1,
The drain tank inlet pipe 190 is
One end is located in the drain tank 180 and the other end is a U-shaped pipe connected to the water level sensor 150 from the outside,
Ends located in the drain tank 180, the individual vacuum consolidation method for drainage, characterized in that is installed adjacent to the lower side of the drain tank (180).
The method of claim 1,
The individual vacuum consolidation method for drainage device 100
The collecting tank flow pipe 140 is the bottom surface of the collecting tank 110 is located,
Individual vacuum consolidation method for drainage, characterized in that protruding a certain height upward.
The method according to claim 6,
The individual vacuum consolidation method for drainage device 100
The collection tank (110) further comprises a fourth control valve (240) formed adjacent to the bottom of the individual vacuum consolidation method for drainage.

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