RU2147645C1 - Method and device for lowering of ground water level in construction and operation of underground structures - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to construction and operation of underground objects located below level of ground water. According to method, ground water is withdrawn by means of pump provided with suction and delivery pipes. Water is taken from perforated pipes connected through suction pipes to pump. Lowering of ground water level is carried out inside underground structure from every layer separately with subsequent removal of dewatered layers of ground. Bottom of underground structure is constructed after placing perforated pipe on crushed-stone base below structure bottom level. Pump through non-return valve withdraws water until completion of bottom construction, erection of partitions up to their complete waterproofing from ground water head pressure. End of pump suction pipe is located above level of ground water. Pump is disconnected from suction pipe. Perforated pipe is left in medium of ground water below structure bottom. Suction pipe of pump together with remaining ground water in it is embedded in body of underground structure leaving free upper outlet ring of pipe provided with gate valve with possibility of connecting pump to it for withdrawing emergency high ground water. Device is provided with suction and delivery pipes, perforated pipe which is connected through non-return pipe with lower end of suction pipe. Suction pipe is embedded in structure body. Upper end of suction pipe is located above ground water level with possibility of its waterproofing and of connecting to pump gate valve. Perforated pipe is located horizontally below level of bottom of underground structure along its entire length in medium of ground water. Application of aforesaid method and device enhances efficiency and reliability of artificial lowering of ground water level in construction and operation of underground structures located below ground water level. Also prevented is displacement from ground of already erected and operated underground structures by pressure of emergency high ground water. EFFECT: higher efficiency. 4 cl, 5 dwg, 2 ex

Description

 The invention relates to the field of construction and operation of structures buried in the ground, located below the level of the groundwater horizon and is a comprehensive technical solution to the problem, combined into one single whole by one inventive concept.

 A known method of lowering the groundwater level, for example, during the construction (erection) of the bottom of an underground structure, by pumping out groundwater from a pit (sump) located below the construction mark of the bottom of an underground structure ("Handbook of the master builder" edited by D. Koroteev, Moscow , Stroyizdat, 1989, pp. 104-106).

 The disadvantage of this method is that after the construction of the bottom of the underground structure, the suction pipe of the pump for concreting the pit (sump) located in the bottom of the structure is removed from the pit, but the strong pressure of ground water does this, and almost through the pit (sump) into underground water all the time comes into the underground structure.

 Closest to the invention is a method of lowering the groundwater level by pumping them with a suction and pressure pipes from perforated pipes connected through a check valve to the lower end of the pump's suction pipe (see description of the invention SU 1399394 A1, class E 02 D 27/18 )

 In terms of the device, the closest one is a device comprising a pump with a suction and pressure pipes, a perforated pipe connected through a check valve to the lower end of the suction pipe (see the description of the invention SU 1399394 A1, class E 02 D 27/18).

 A disadvantage of the known method and device is that the water is pumped out first to the groundwater tank, and only then pumped by another pump outside the underground structure.

 The objective of the present invention is to increase the efficiency and reliability of artificial lowering of the groundwater level during the construction and operation of underground structures located below the groundwater level, as well as the prevention of extrusion from the ground of an already constructed and operated underground structure by the pressure of extremely high groundwater.

 The task in terms of the method is solved according to the invention due to the fact that in the method, which includes pumping groundwater with a suction and pressure pipes from perforated pipes connected by suction pipes to the pump, during the construction of an underground structure, the groundwater level is lowered in layers inside the underground structure by pumping groundwater from each layer separately, followed by removal of dehydrated soil from an underground structure. To erect the bottom of an underground structure, a perforated pipe is laid along its entire length, which is connected through a non-return valve to the suction pipe of the pump, then the pump is turned on and groundwater is pumped out of the perforated pipe until it falls below the level of the construction mark of the bottom of the structure, until the construction of the latter is completed, the construction of partitions, and until they are completely sealed against the pressure of groundwater. The end of the suction pipe of the pump is placed above the groundwater level, then the pump is disconnected from the suction pipe, the perforated pipe is left in the groundwater environment below the bottom of the structure, and the suction pipe of the pump with the remaining groundwater in it is concreted in the body of the underground structure, leaving only the upper outlet the crown of the pipe with a valve, with the possibility of attaching a pump to it.

 In the event of an abnormally high rise in the groundwater level and the threat of squeezing out of the ground of an already constructed and operated underground structure, the pump can be reconnected to the valve of the upper outlet rim of the pump suction pipe and pumped out the emergency high water until the signs of extrusion of the underground structure cease. A decrease in the level of accidentally high ground water to a normal level is controlled by opening the valve of the upper rim of the suction pipe with the pump disconnected, while ground water from the valve should not be poured when it is opened, if the emergency high level of ground water drops to a normal level.

 In terms of the device, the problem is solved due to the fact that in a device containing a pump with a suction and pressure pipes, a perforated pipe connected through a non-return valve to the lower end of the suction pipe, after the construction of an underground structure, the upper end of the pump suction pipe must be placed above the groundwater level with the possibility of sealing, and the perforated pipe is positioned horizontally below the bottom of the underground structure along its entire length in the groundwater environment, and the suction pipe itself with by statues in it groundwater should be concreted in the body of a buried well, for example, in a vertical partition. In this case, the upper outlet rim of the suction pipe with a valve can be brought outside the concrete body of an underground structure with the possibility of connecting to a pump valve, for example, a vertical partition of a buried well is taken outside the concrete body.

 The given set of features provides a technical result, which is expressed in increasing the efficiency and reliability of artificial lowering of the groundwater level during the construction and operation of underground structures located below the groundwater level, as well as the prevention of extrusion from the ground of an already constructed and operated underground structure by the pressure of extremely high groundwater.

The invention is illustrated by drawings, where:
in FIG. 1 is a schematic view of a device at the time of layer-by-layer dehydration of soil inside an underground structure. At the same time, after dehydration of the next layer of water-saturated soil, it is removed from the underground structure and, if necessary, the building itself is lowered to the design level;
in FIG. 2 is a schematic view of the device at the time of construction of the bottom of the underground structure;
in FIG. 3 shows in a schematic form an underground structure after its construction with a sealed suction pipe and a concreted upper end of the pump suction pipe in the body of the vertical partition of the structure;
in FIG. 4 is also a schematic view of an underground structure with the possibility of connecting to the gate valve of the upper rim of the suction pipe to lower the level of emergency high groundwater;
in FIG. 5 is a schematic view of an underground structure made in the form of a metal tank, with the possibility of connecting pumps to the valves of the suction pipes to lower the groundwater level.

 A device for implementing the proposed method contains the walls of an underground structure 1, immersed in soil with a high level of groundwater 2, inside of which a pit dug, filled with gravel 3, with a perforated pipe 4 previously connected to it through a check valve 5 and connected to a suction pipe 6, having an upper outlet rim 7, a valve 8 with a pump 9, to which a pressure pipe 10 is connected.

 When the pump 9 is turned on, the groundwater level 2 inside the underground structure 1 decreases to the groundwater level 11, located below the level of the construction mark of the bottom 12, which makes it possible to carry out construction work on the construction of the bottom 12, the vertical partition 13, in the body of which remains a concreted suction pipe 6 (see Fig. 2, 3).

 The upper outlet rim 7 of the suction pipe 6 and the valve 8 are removed from the concrete of the vertical partition 13 with the possibility of connecting to the valve 8 of the pump 9 for pumping out an abnormally high groundwater level 14 (see Fig. 4) and lowering it to groundwater level 2. This is monitored by opening the valve 8 (with the pump 9 disconnected). When level 14 decreases to level 2, groundwater should not be poured out of gate 8.

 The method is as follows.

 In the dug trench of the first layer of water-saturated soil 2 inside the structure 1, a perforated pipe 4 is laid horizontally along the entire length of the underground structure 1, which, through the check valve 5 with the suction pipe 6 of pump 9, is turned on to pump 9 and the groundwater level 2 in the first layer of water-saturated soil is lowered. After that, the dehydrated first upper layer of soil 2 is removed from the underground structure 1, then a trench is dug in the second layer of water-saturated soil 2, the perforated pipe 4 with the suction pipe 6 of pump 9 is lowered into it, the second layer of soil 2 is dehydrated and removed from the underground structure 1. The same operations are performed in other layers of the soil 2.

 To erect the bottom 12 of the underground structure 1, a perforated pipe 4 is laid along its entire length, which is connected through a non-return valve 5 to the suction pipe 6 of the pump 9, then the pump 9 is turned on and groundwater is pumped out of the perforated pipe 4 until their level 11 drops below the level of the building marks of the bottom 12 of structure 1, until the construction of the latter, the construction of the partition 13, and until they are completely sealed against the pressure of the groundwater 2. The end of the suction pipe 6 of the pump 9 is placed above the groundwater level 2, then the pump 9 disconnect from the suction pipe 6, the perforated pipe 4 is left in the groundwater 2 below the bottom 12 of the structure 1, and the suction pipe 6 of the pump 9 with concrete residues in the underground water is concreted in the body of the underground structure 1, leaving only the top outlet 7 of the pipe 6 unblocked. with a valve 8, with the possibility of attaching a pump 9 in it.

 In the event of an abnormally high rise in groundwater level 14 and the threat of extrusion from the ground of an already constructed and operated underground structure 1, a pump 9 is reconnected to the valve 8 of the upper outlet rim 7 of the suction pipe 6 of the pump 9 and the emergency high water 14 is pumped out until the signs of extrusion cease underground structures 1. Control over the decrease in the level of accidentally high groundwater 14 to a normal level of 2 is carried out by opening the valve 8 of the upper crown 7 of the suction pipe 6 when disconnected pump 9, while the ground water from the valve 8 should not be poured when it is opened, if the abnormally high level of 14 ground water has dropped to normal level 2.

Надземная часть подземного сооружения еще не была построена, когда в результате ливневых дождей уровень грунтовых вод поднялся до аварийного около 8,5 м. Соответственно сила выдавливания подземного сооружения из грунта увеличилась и составила 8642 т, из-за чего появились признаки выдавливания сооружения из грунта.Example 1. During the construction of an underground structure with a diameter of 36 m with a depth of 10 m with a normal groundwater height of 5 m, with a total weight of the underground part of the structure of about 8000 tons, the extrusion force (excluding the friction force of the walls of the structure against the ground) is

The aboveground part of the underground structure had not yet been built when, as a result of heavy rains, the groundwater level rose to an emergency level of about 8.5 m.Accordingly, the force to extrude the underground structure from the soil increased and amounted to 8642 tons, which caused signs of extrusion of the structure from the soil.

 After pumping out abnormally high groundwater, the level dropped to normal and signs of extrusion of the underground structure disappeared.

Example 2. A metal tank with a total weight of 330 tons with a bottom area of 250 m ^{2 is} buried in the ground by 3.5 m with a normal groundwater level of 1 m. The force to extrude the structure from the ground was 250 tons. As a result of heavy rains, the groundwater level rose to an emergency high, equal to 1.8 m. The extrusion force increased to 450 tons and there were signs of extrusion of the structure from the ground.

 After pumping abnormally high groundwater to a normal level, extrusion symptoms disappeared.

Claims (4)

 1. A method of lowering the groundwater level during the construction and operation of underground structures located below the groundwater level, for example buried wells with a bottom and vertical partitions, by pumping groundwater with a suction and pressure pipes from perforated pipes connected by suction pipes to the pump, characterized the fact that during the construction of an underground structure lowering of the groundwater level is carried out in layers inside the underground structure by pumping out groundwater from each pump layer separately with the subsequent removal of dehydrated soil layers from the underground structure, and for the construction of the bottom of the underground structure along the entire length of the perforated pipe is laid, which is connected through a non-return valve to the suction pipe of the pump, then the pump is turned on and groundwater is pumped out of the perforated pipe to lower their level is lower than the level of the construction mark of the bottom of the structure until the construction of the latter is completed, the partitions are erected and until they are completely sealed against groundwater pressure, etc. than the end of the suction pipe of the pump is located above the groundwater level, then the pump is disconnected from the suction pipe, the perforated pipe is left in the groundwater environment below the bottom of the structure, and the suction pipe of the pump with the remaining groundwater in it is concreted in the body of the underground structure, leaving only the top concrete the outlet crown of the pipe with a valve with the possibility of attaching a pump to it.  2. The method according to claim 1, characterized in that the pump is reconnected to the valve of the upper outlet rim of the suction pipe of the pump and the emergency high water is pumped out until the signs of extrusion of the underground structure are stopped, moreover, the level of emergency high ground water is reduced to a normal level by opening the valve of the upper rim of the suction pipe when the pump is disconnected, while the ground water from the valve should not be poured when it is opened, if the abnormally high level of ground water drops normal level.  3. A device for implementing the method of lowering the groundwater level, comprising a pump with a suction and pressure pipes, a perforated pipe connected through a check valve to the lower end of the suction pipe, characterized in that after the construction of an underground structure, the upper end of the suction pipe of the pump is necessarily located above the ground level water with the possibility of sealing, and the perforated pipe is located horizontally below the bottom of the underground structure along its entire length in the groundwater environment, and ama suction pipe with the remnants of it concreted ground water in the body of the vertical walls of the buried well.  4. A device for implementing the method of lowering the groundwater level according to claim 3, characterized in that the upper outlet rim of the suction pipe with a sliding pipe is removed outside the concrete body of the underground structure with the possibility of connecting to the pump valve, for example, the vertical partition of a recessed well outside the concrete body .

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