KR19980087602A - Groundwater Excavator Blocking Apparatus and Method - Google Patents

Abstract

The present invention relates to a groundwater drilling hole blocking device and method for closing or temporarily blocking the groundwater drilling hole, and in particular, the first fluid for expanding and made of expandable fabric or synthetic rubber to block the drilling hole A glass bottle containing an expansion shielding tube containing a second fluid, a second fluid installed inside the expansion shielding tube and mixed with the first fluid to expand the expansion shielding tube, and a glass bottle for mixing the first fluid and the second fluid. A bursting rod that is broken by hitting the rod, a spring that provides elasticity to break the vial, and a retaining pin inserted into a groove formed in the bursting rod so that the bursting rod can be stopped in the contracted state before breaking the vial. And, the coil and the iron core is made of a rupture rod so that the rupture rod hits the glass bottle. It is configured to include a power supply device for the electromagnet and a supply power to the electromagnet from withdrawing;

In addition to the general groundwater drilling hole, it can be used for groundwater drilling holes that are constructed at construction sites, and it can be easily inserted and installed even when some groundwater drilling holes are recessed. It relates to an underground well corking apparatus and the same method.

Description

Groundwater Excavator Blocking Apparatus and Method

The present invention relates to a groundwater drilling hole blocking device and method for closing or temporarily blocking groundwater drilling holes, in particular, groundwater excavation that can be easily completed without a separate work tool or equipment regardless of the groundwater drilling hole state The present invention relates to an apparatus and a method for blocking a blank.

In general, in the geological survey process before the excavation work for the basic construction of general buildings, drilling holes are inevitably excavated, and at the same time, the excavation work is performed to collect the groundwater used for the buildings.

At this time, the developed groundwater excavation hole is often left in the state of being embedded outcasing to prevent the ground layer collapses, and thus, the damage of outcasing occurs in the process of foundation excavation of the building. Since rock and soil are introduced into the groundwater diggers that have already been developed, there are cases where the problem is that the installation of the pump to collect the groundwater after the completion of the building causes a serious problem that the pump cannot be installed. Too many.

In this case, it is desirable to block the groundwater excavation hole during the construction of the foundation trench of the building to block the groundwater excavation hole at a certain depth in order to prevent rock or soil from entering and accumulating in the groundwater excavation hole.

That is, after blocking the groundwater excavation hole with a shielding plate or the like, it is preferable to collect the shielding plate in which the rock and soil piled up and collect the groundwater after the construction is completed.

In addition, as the foundation trench construction of the building proceeds, the outcasing installed in the groundwater excavation hole is cut according to the progress of the construction. Therefore, to prevent rock or earth and sand from entering the excavation hole of the groundwater, Excavate holes in groundwater.

In the conventional groundwater drilling hole blocking device, as shown in FIG. 1, the upper plate 2 and the lower plate 3 having a diameter smaller than that of the groundwater drilling hole are provided at regular intervals around the support pipe 1. An expansion tube (4) is connected between the upper plate (2) and the lower plate (3) to an air compressor hose (5) installed through the upper plate (2), and on one side of the upper plate (2) (6) is connected.

In addition, when observing various states of the groundwater can be configured to connect the observation pipe (7) to the support pipe (1) even if the excavation hole of the groundwater is blocked to observe the inside.

The above-mentioned conventional method for blocking the groundwater drilling hole is ground water through the casing (9) through the rope (6) and the air compressor hose (5) from the ground without the compressed air injected into the expansion tube (4) To the drilling hole of the expansion tube (4) to be positioned at a constant depth.

At this time, the expansion tube 4 is in a stretched state, and the upper plate 2 and the lower plate 3 are easily inserted because their diameter is smaller than the diameter of the excavation hole of the groundwater.

After insertion of the expansion tube 4, when compressed air is supplied from the air compressor 8 installed on the ground through the air compressor hose 5, the expansion tube 4 is expanded to block the excavation hole.

However, in the prior art, when a part of the outcasing 9 is recessed or the groundwater drilling hole is damaged due to the construction of a building excavation, the upper plate 2 and the lower plate 3 are excavated with the outcasing 9 or groundwater. Since it is caught by the inner wall of the ball, it is difficult to insert the required depth.

In addition, the prior art has a problem that the operation is inconvenient, such as a separate pump equipment is required by extending the air compressor hose (5) for injecting compressed air or fluid to the expansion tube (4).

The present invention has been made to solve the above problems of the prior art, even if a portion of the outcasing or groundwater excavation hole is recessed to reduce the diameter, it is easy to insert in the state and excavation of groundwater by simple operation without additional equipment It is an object of the present invention to provide a groundwater digging hole blocking device and method that can block the ball.

1 is a partial cross-sectional view of the groundwater drilling hole blocking device according to the prior art,

2 is a partial cross-sectional view of the groundwater excavation hole blocking device is installed according to the present invention,

3 is a perspective view of an expansion shield tube, which is a component of the present invention;

4 is a partial cross-sectional view of the groundwater drilling hole blocking device according to the present invention,

5 is a perspective view of a protective casing which is a component of the present invention;

6 is a state in which the groundwater drilling hole closed by the present invention,

Figure 7 is a partial cross-sectional view buoy is installed on the expansion shield tube of the present invention.

Explanation of symbols about main parts of the drawings

50: expansion shield tube 51: rubber band

52: circular support plate 53: waterproof cap

54 weight 55: lifting wire

55 ': connection rope 56: pressure gauge

57: wire 58: power supply

60: glass bottle 61: rupture rod

61a: projection 61b: projection projection

61c: groove 62: spring

63: spring box stopper 64: electromagnet

66: hook pin 67: wire

68: spring box 70: protective casing

80: water 81: expandable urethane fluid

82: fast cement 83: concrete

90: outcasing 100: buoy

The present invention provides an expansion shielding tube made of an expandable fabric or synthetic rubber to expand and block an excavation hole and containing a first fluid for expansion, and installed inside the expansion shielding tube and expanding the expansion shielding tube. And a glass bottle containing a second fluid mixed with the first fluid, and a mixing device for mixing the first fluid and the second fluid.

Here, the mixing device is a bursting rod that breaks the glass bottle by hitting the first fluid and the second fluid to be mixed, a spring providing an elastic force to break the glass bottle, and the bursting A catch pin inserted into a groove formed in the rupture rod so that the spring can be stopped in the contracted state before the rod breaks the vial, and a catch pin formed of a coil and an iron core so that the rupture rod can strike the vial. And a power supply for supplying power to the electromagnet, wherein the electromagnet is removed from the groove of the rupture rod.

In addition, the first step of shielding the excavation hole of the ground water with a shielding means, the second process of curing by injecting and curing a certain amount of fast-hard cement or quick-component two-component mixed urethane-based resin on the shielding means, It is characterized in that it consists of a third process of curing by injecting the remaining concrete for closing the excavation hole after the hard cement or quick-hard two-component mixed urethane-based resin is cured.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a partial cross-sectional view of the groundwater drilling hole blocking device is installed according to the present invention, Figure 3 is a perspective view of the expansion shield tube which is a component of the present invention, Figure 4 is a groundwater drilling hole according to the present invention Partial cross-sectional view of the blocking device, Figure 5 is a perspective view of a protective casing which is a component of the present invention, Figure 6 is a state diagram of the groundwater excavation hole closed by the present invention, Figure 7 is a buoy in the expansion shield tube of the present invention It is a partial section installed.

Groundwater excavation hole blocking device according to the present invention is surrounded by a plurality of elastic rubber bands 51, as shown in Figure 2 to 5 made of an expandable fabric or synthetic rubber, there is a foamed urethane fluid 81 therein The expansion shield tube 50 is contained, the waterproof cap 53 is installed to be waterproof to the upper portion of the expansion shield tube 50, and the foaming inside the expansion shield tube 50 in the expansion shield tube 50 When mixed with the urethane fluid 81, the foamed urethane fluid is installed on the glass bottle 60 containing water 80 and the upper portion of the waterproof cap 53 to be cured while increasing the volume by a chemical action Is composed of a spring box 68 and a spring box cap 63 that is detachably installed so that water or foreign matter does not flow into the spring box 68 above the spring box 68.

Here, the volume of the expandable urethane fluid 81 is greater than that of the water 80 because the volume inside the expansion shield tube 50 is larger than the volume inside the glass bottle 60.

In addition, a spring 62 installed inside the spring box 68 and a plurality of sharp protrusions 61a are formed to break the lower portion of the glass bottle 60 by the elastic force of the spring 62. The bursting rod 61 is installed to be connected to the spring 62, and the bursting rod 61 so that the spring 62 can be stopped in a compressed state by the engaging projection (61b) formed in the bursting rod 61. The locking pin 66 inserted into the groove 61c formed in the) and the rupture rod 61 is lowered by the elastic force of the spring 62 while breaking the lower portion of the vial 60. It consists of the electromagnet 64 which extracts 66 by magnetic force.

Here, the electromagnet 64 is composed of a coil 64a and an iron core 64b inserted into the coil 64a.

In addition, a power supply 58 for supplying electricity to the coil 64a is connected to the wire 57, the glass bottle 60 is broken through a pressure gauge 56 installed on the ground, the foamed urethane fluid 81 The pressure check hose 68 is connected to the expansion shield tube 50 so as to check whether or not the water and the water 80 are mixed, and the outside of the glass bottle 60 during the transportation of the glass bottle ( In order to prevent the 60 from being broken, a protective casing 70 having a plurality of circular holes 70a formed in the lower portion and a plurality of slot-like holes 70b formed therein is provided.

In addition, a lower portion of the expansion shield tube 50 is provided with a waterproof base plate 52, the predetermined weight so that the expansion shield tube 50 can be inserted well installed even if the groundwater is excavated in the groundwater drilling hole The weight 54 is connected to the connecting rope 55 '.

In addition, when the expansion shield tube 50 is prevented from sagging in the vertical direction between the waterproof cap 53 and the circular support plate 52 while lifting the expansion shield tube 50 from the excavation hole, the lifting is A plurality of wires 67 are connected for ease.

In addition, a lifting wire 55 is connected to the spring box stopper 63 so that the expansion shield tube 50 is inserted or lifted into the groundwater drilling hole.

Referring to the method of using the groundwater drilling hole blocking device according to the present invention configured as described above are as follows.

First, the bursting rod 61 is pulled in a state in which the spring box stopper 63 is separated, and the bursting rod 61 is stopped so that the bursting rod 61 stops when the spring 62 is compressed. The locking pin 65 is inserted into the groove 61c.

Thereafter, the spring box stopper 63 is installed well to make the spring box 66 waterproof, and the expansion shield tube 50 is sent down to the excavation hole using the lifting wire 55. At this time, the expansion shield tube 50 may be inserted to the depth of the desired drilling hole by the weight of the weight (54).

In addition, since the expansion shield tube 50 is in a contracted state and is surrounded by the rubber band 51, the expansion shield tube 50 is not caught regardless of the state of the out casing 90 installed in the excavation hole or the state of the excavation hole. Insertion is made very easy.

After placing the expansion shield tube 50 at the required depth of the excavation hole, and supplying power to the power supply device 58, a current flows in the coil 64a, the iron core 64b serves as a magnet. The locking pin 65 is pulled by the iron core 64 to be separated from the groove 61c of the rupture rod 61.

Accordingly, the bursting rod 61 is moved at a high speed downward by the elastic force of the spring 62, and the protrusion 61a installed at the lower end of the bursting rod 61 is disposed under the glass bottle 60. The lower portion of the vial 60 is broken at a price.

When the glass bottle 60 is broken, the water 80 contained in the glass bottle 60 flows out to the broken portion of the lower portion of the glass bottle 60, and also the hole of the protective casing 70 It flows out through the 70a and the slotted holes 70b.

The water 80 flowing out of the vial 60 is mixed with the expandable urethane fluid 81 contained in the expansion shield tube 50, and the foamed urethane fluid 80 and the water 80 Mixing causes a chemical action and its volume increases over time.

That is, because the material of the expansion shield tube 50 is made of a stretchable fabric or synthetic rubber is expanded in all directions, eventually blocking the groundwater drilling hole. And because the expansion shield tube 50 is provided with a wire 67 between the waterproof cap 53 and the circular support plate 52 of the upper portion is expanded only by a predetermined length in the vertical direction and much in the radial direction of the groundwater drilling hole At the same time, since the rubber band 51 is wound up, the rubber band 51 is uniformly inflated, thereby making it possible to securely block the excavation hole, thereby increasing reliability.

On the other hand, whether or not the expansion shield tube 50 is sure whether the operation is very difficult on the ground, in the present invention, because the pressure check hose 68 is connected to the inside of the expansion shield tube 50 is above the ground The numerical value of the pressure gauge 56 can be checked to determine whether or not it is normally operated.

When using the groundwater drilling hole blocked by the expansion shielding tube 50 again, the pulling shield 55 is pulled to lift the expansion shielding tube 50 from the groundwater drilling hole, and the cardiac pump and pumping pipe is again. Groundwater can be reused by installing.

In addition, when the excavation hole of the ground water is completely closed, as shown in FIG. 6, the expansion shield tube 50 is expanded to block the ground water excavation hole primarily through a hose 84 in a predetermined amount of fast rigidity. After the cement 82 or the quick-hard two-component mixed urethane-based resin is injected and cured, the secondary concrete can be poured and cured to be completely closed.

That is, since a predetermined amount of the fast-hard cement (82) or the quick-hard two-component mixed urethane-based resin is injected, the pressure applied to the expansion shield tube 50, as compared to the entire amount of the general concrete at once This reduction can prevent the expansion shield tube 50 from being damaged.

On the other hand, Figure 7 is a view showing the groundwater blocking device installed buoy 100 in order to improve the workability of the groundwater drilling rig for the initial development of the general building, in the case of the groundwater well for the initial development of the building If the construction is performed by accurately calculating the height, the out casing 90 is cut at the lower end of the expansion shield tube 50, but the workability is good, but inevitably the base and bottom finish at the top of the expansion shield tube 50 If this is completed, the buoy 100 is pulled up and the lifting wire 55 is pulled out to take out the expansion shield tube 50 to install the cardiac pump and pumping pipe.

Therefore, even if the construction state is changed, it is possible to easily remove the expansion shield tube 50 to collect ground water.

As such, the groundwater blocking device and method according to the present invention can be used for groundwater drilling holes that are constructed in construction sites in addition to general groundwater drilling holes, and can be easily inserted and installed even when the groundwater drilling holes are partially recessed. As it can be confirmed, the reliability is increased.

Claims (8)

An expansion shielding tube made of an expandable fabric or synthetic rubber to expand and block the excavation hole and containing a first fluid for expansion; a first fluid installed inside the expansion shielding tube and expanding the expansion shielding tube And a glass bottle containing a second fluid to be mixed with a mixing device for mixing the first fluid and the second fluid. The method of claim 1, The mixing device includes a rupture rod that breaks the glass bottle by a blow so that the first fluid and the second fluid can be mixed, a spring that provides an elastic force so that the rupture rod can break the glass bottle, and the rupture rod is A locking pin inserted into a groove formed in the bursting rod so that the spring can be stopped in a contracted state before breaking the vial, and a coil and an iron core, the locking pin allowing the bursting rod to strike the vial; Groundwater excavation hole blocking device and method comprising an electromagnet taken out of the groove of the rupture rod, and a power supply for supplying power to the electromagnet. The method according to claim 1 or 2, The expansion shield tube has a lifting wire connected to the upper portion of the expansion shield tube to insert and lift the expansion shield tube into the excavation hole of the groundwater, and the expansion shield tube is further connected to the lower portion of the expansion shield tube to facilitate insertion of the expansion shield tube. Groundwater digger blocking device and method, characterized in that connected to. The method of claim 3, The lifting wire is a groundwater digging hole blocking device and method characterized in that the buoy is installed to easily lift the expansion shielding tube at the same time to confirm the position of the expansion shielding tube. The method according to claim 1 or 2, The expansion shielding tube is provided with a plurality of wires from the upper end to the lower end of the expansion shielding tube so that the expansion shielding tube is inflated by a predetermined volume in the vertical direction and easy to lift, and around the expansion shielding tube. Groundwater excavation hole blocking device and method characterized in that a plurality of rubber bands are installed to uniformly expand the tube. The method according to claim 1 or 2, The second fluid may be easily mixed with the first fluid when the glass bottle is broken by the rupture rod while the glass bottle is not broken while the expansion shield tube is moved between the expansion shield tube and the glass bottle. Groundwater excavation hole blocking device and method characterized in that it comprises a protective casing formed with a plurality of holes in the lower and periphery. The method according to claim 1 or 2, The expansion shield tube is ground water, characterized in that the pressure check hose is connected to the pressure gauge is installed on the ground so that the first fluid and the second fluid is mixed and the expansion shield tube is expanded therein is installed therein. Excavator blocking device and method. A first step of shielding the excavation hole of the groundwater with a shielding means, a second step of injecting and curing a predetermined amount of a fast-hard cement or a fast-hard two-component mixture-based urethane resin on the upper part of the shielding means, and the fast-hard cement Or a third process of curing and curing the remaining concrete for closing the excavation hole after curing the resin of the quick-hard two-component mixture urethane series.