KR20030006663A - A grouting apparatus and method for groundwater wells which can be injected by injecting grouting liquid downwardly. - Google Patents

Abstract

PURPOSE: A grouting method for a deep well filled by injecting grouting materials downward is provided to simplify works on injecting grouting materials. CONSTITUTION: The grouting method for a deep well filled by injecting grouting materials downward comprises the steps of: covering the lower end of a pipe by descending a closed pipe together with a pipe; expanding upper, lower expansion tubes by setting a hose adaptor device, then covering the upper and lower spaces of the hose adaptor device; injecting grouting materials downward through a grouting injection tube connected to the upper end of the pipe and circulating/discharging grouting materials through an underwater discharge-circulation hose to fill up a grouting section with grouting materials; and drawing the hose adaptor device to the outside, then curing the grouting materials.

Description

A grouting device and method for groundwater deep well which can be injected by injecting grouting liquid downwardly. {Omitted}

The present invention relates to a groundwater core grouting apparatus and method for filling the grouting solution to fill the inner wall of the core so that the contaminated surface water, etc. to the ground excavated in order to collect the ground water is injected downward In particular, since the incasing is firmly inserted and installed to the depth necessary for grouting the core, and concrete can be supplied and cured from the bottom of the incasing to the required depth, it is possible to prevent contaminated surface water and the like from entering the core of groundwater. The present invention relates to an apparatus and method for grouting groundwater core wells which can be injected by injecting the grouting solution of groundwater core wells downwardly.

As industrialization progresses in modern times, environmental pollution is intensifying and interest in clean drinking water is increasing. Therefore, in recent years, researches on devices for purifying tap water or surface water and devices for developing uncontaminated groundwater have been intensified.

In general, a preferred groundwater harvesting device is to excavate the rock from the surface using a rocker of a predetermined thickness to the rock layer, and then to outcrop the large-diameter mudstone, which is installed to prevent the collapse of the weathered rock layer, and then excavate the rock layer again. To excavate the groundwater through the water vein to prevent the inflow of surface water, and to prevent the inflow of soil water or foreign substances in the groundwater at the position where the groundwater is moved to the lower portion of the incasing, and to maintain the proper flow rate. Strainer pipe is installed, the concrete is injected and cured to prevent the inflow of foreign matters such as surface water in the space between the inner casing and the inner wall of the heart well, the heart pump installed inside the encasing, and the heart well It is installed to be connected to the pump and ground water to the ground by the heart pump Raising consists of a pumping pipe.

The cardiac well pump is heat-set by the upper level sensor and the lower level sensor installed at a predetermined depth in the groundwater well together with the pumping pipe.

In addition, the encasing is provided with a water level measuring tube that can monitor the level of the groundwater to a certain depth.

Conventionally, in order to meet a contracted amount of water by collecting a large amount of groundwater, the insertion depth of the in casing, which is to be pushed up to a part of the rock layer, was often pushed only to the middle of the weathered rock layer. There have been cases of induction, and the incasing for grouting has never been constructed with a large number of groundwater wells, and the wells with some synthetic resin encasing have not been grouted to prevent surface water inflow. In many cases, surface water flows into the groundwater well without any disturbance and is mixed with clean rock groundwater, resulting in the spread of groundwater contamination.

In addition, the most conventional construction method is to simply inject only the casing without grouting the existing groundwater wells. This is because the depth of the encasing is limited to the shallow depth due to the curved nature, and this encasing could not fundamentally prevent contamination due to the inflow of surface water.

In addition, the conventional method as a grouting construction method for preventing the inflow of surface water, the excavation of the large diameter that can be inserted into the upper surface of the rock layer in the process of excavation in order to pump ground water, and then insert the outcasing, It is a method of injecting and curing concrete into the inside, digging a small diameter excavation hole for the in casing again until reaching the groundwater vein, and then installing the incasing.

However, in this method, grouting must be carried out in a state where the amount of water is not accurately confirmed. Therefore, the initial excavation cost is excessively increased, and when the contract amount of water cannot be secured, the grouting is completed and the existing excavation hole is closed in the encasing state. As a result, there is a problem in that it is uneconomical in terms of the cost of the contractor and consequently incurred excessive construction costs in terms of the client.

And, in order to solve the above problems, excavation to the beginning of the rock bed, and then insert the outcasing, change the excavation bit (bit) to a small diameter and excavate again in the state of excavation to the water vein of the groundwater There is a method of blocking the inflow of surface water by injecting and curing the grouting solution containing cement and water into the gap between the in casing and the inner wall of the excavation hole.

However, this method is also difficult to inject the grouting liquid from the bottom in the process of injecting the grouting liquid, and even if the grouting liquid is injected from the bottom, the grouting liquid is not completely blocked because the gap between the casing and the inner wall of the drilling hole cannot be completely blocked. It is impossible to prevent groundwater contamination by leakage into groundwater wells. In addition, even when the grouting liquid is injected from the upper part, the grouting liquid is not completely filled in the gap between the encasing and the inner wall of the groundwater core by the bridge phenomenon at the intermediate length due to the characteristics of the cement liquid. Since the grouting solution is injected while the groundwater level is raised, it is difficult to continuously grout the grouting solution due to the groundwater that is already filling the space. Mixing and diluting with the groundwater existing between Yixing and the inner wall of the deep well was not possible to cure the grouting solution or to obtain adequate strength. Therefore, when water quality is important, there is a problem in that a large additional construction cost or secondary grouting construction is impossible by rebuilding grouting as a secondary tertiary.

After the proper amount of groundwater has been collected, another method of grouting is to fill the rock from the bottom of the previously excavated groundwater heart well to the sand from the bottom up to a certain height at the depth at which the groundwater vein is identified and to maintain the shielding in the water. After shielding with a lump or wood board, etc., the concrete is injected and cured from the upper part, and then excavated to the position of the above-mentioned mud lump or wood board, and the sand underneath is cleaned by surging compressed air. The process is to discharge it to the outside and drive in the casing.

However, this method also can not be used if the center of the excavation hole can not be matched with the development loss occurs, if the material installed for shielding does not perform its role properly, concrete is injected into the groundwater vein Since water veins are blocked, there is a problem that the amount of water is drastically reduced.

And, even if there is a method that overcomes the above-mentioned problems, the method according to the prior art, in the case of excavating the excavation hole using a landing gear, reaching the rock layer and the difference between the components of the rock layer and extension of the landing gear As the pipe is small in diameter, the drill hole is curved to some extent, so that it cannot maintain a straight axis, so that the linear encasing, which is generally large in diameter, is caught in the curved area and is driven to the required depth. In the process of injecting the grouting solution, the grouting solution flowed downward to prevent grouting, and the grouting method according to the prior art does not secure the airtight reliability of the shielding means for shielding concrete during grouting. Concrete is the vein of groundwater Is not flowing, there is a problem that underground water or the contamination of underground water is reduced chaesuryang.

In order to solve the problems described above, the present inventors have invented a groundwater core grouting grouting device and a grouting method for a solid and perfect groundwater core grouting construction and devised a groundwater core grouting pipe device.

The existing grouting apparatus and method invented or devised by the inventors of the present invention have an upward injection method of injecting grouting liquid from the bottom of the incasing pipe while installing an expansion pack device at the bottom of the incasing pipe to shield the bottom of the incasing pipe. It can be adopted to ensure the filling effect of the solid grouting solution from the bottom to the top. Also, in order to prevent the air injection hose of the expansion pack or the grouti injection tube from being damaged by contact with the inner wall of the expansion casing during insertion of the casing pipe, the air injection hose and the injection tube of the grouting fluid are passed through the inside of the casing pipe. It was to be sentenced.

These inventions and designs have been applied to the field and are already widely applied due to their functionality, economics, and work efficiency, and the effects of the improvement of existing groundwater wells as well as new development regulations have been proved highly.

However, all of the above inventions and designs require a high injection pressure for injecting grouting liquid when the grouting depth of the groundwater heart well is deep due to the upward injection method filling up the grouting liquid from the bottom of the groundwater core. In addition, when the grouting liquid injection tube is installed inside the in casing, multi-stage injections having different depths and positions of the inlet are essential to prevent the grouting of grouting fluid formed on the inner wall of the heart. Of course, the work equipment and work process had a problem that is complicated.

The present invention has been invented to solve the above problems of the prior art, to solve the various problems of the conventional scent injection method to perform grouting for blocking the surface water after the excavation of the groundwater core well, economical and easy to construct It is an object of the present invention to provide a grouting apparatus and method for groundwater core wells that can be filled by injecting a grouting solution that can be grouted steadily.

1 is a schematic diagram showing a typical groundwater well installation state

2 is a schematic diagram showing an embodiment of the present invention

Figure 3 is a perspective view of the hose adapter device of the present invention

4 is a schematic perspective view of the shielding tube of the present invention;

5 is a partially cutaway perspective view of the fixing protrusion of the present invention

Figure 6 is a cross-sectional view showing a state of mounting the balance punched portion and the movable expansion pack of the present invention

7 is a cross-sectional view showing a state in which the lower expansion tube of the hose adapter device is installed for shielding the lower portion of the shield pipe.

The present invention provides a grouting device for making a shielding wall installed in an excavation hole so as to prevent the inflow of surface water contaminated in the groundwater core is shielded so that the gap between the inner wall of the excavation hole and the encasing is shielded at the bottom of the in casing. In the known grouting apparatus comprising a high-pressure expansion tube installed inside the tube and the shielding tube,

It is characterized in that the drilling pipe for ground water discharge is formed in the shielding pipe, and the hose adapter for ground water discharge and circulation is connected to the drilling hole.

Here, the hose adapter device is to process the ground water discharge and circulation holes inside the cylindrical body therein and to expand the expansion tube from the outside by installing expansion tubes on the upper and lower parts of the ground water discharge and circulation holes as a center. Characterized in that it can be shielded.

The perforated part formed in the shielding pipe is installed on the upper part of the cylindrical tubular type expansion pack installed in the shielding pipe, and the lower part of the fast cement cementing tube connector for injecting the fast cement between the encasing pipe and the hollow wall immediately above the expansion pack. It is characterized by the configuration.

In addition, in the incasing pipe, a perforated portion for balancing is formed at regular intervals, and a fastening portion formed in the shielding pipe is injected together with a fast hard cement or compressed air into the expansion pack of the first shielding pipe, and the gap between the incasing pipe and the hollow wall is provided. To maintain the water level balance formed between the groundwater level inside the casing pipe and the groundwater level between the encasing pipe and the hollow wall so as to prevent leakage due to water pressure formation due to the water level difference. It is characterized by a strong shielding can be achieved by increasing the adhesion between the car and the hollow wall.

In addition, the expansion pack to be installed on the top of the expansion pack after installing the expansion pipe of the cylindrical tubular type in the in casing pipe and then inflated after inserting the connecting pipe for connecting with the grouting liquid injection tube in a vertical position at a predetermined position. It is characterized by the fact that the hard cement is made into the dough and hardened in a short time and cured in a short time, and then the grouting injection tube is connected to the connecting pipe to supply the grouting liquid.

In another embodiment, the donut-type tube is inserted into the upper part of the incasing pipe, the connecting pipe is inserted into the outer nut surface of the nut-nut type tube, the compressed air or the fast cement is injected and expanded, and then the fast cement is formed on the expanded donut tube. It is characterized in that the grouting is made by making the dough and curing it within a short time, and then supplying the grouting liquid by connecting the grouting injection tube to the connecting pipe.

In addition, a shutoff valve is installed on the ground water discharge and circulation hose connected to the hose adapter and the ground water existing between the casing pipe and the hollow wall is discharged to the outside and replaced with grouting fluid. By operating the grouting liquid injection pump to increase the supply pressure of the gouting liquid is characterized in that the grouting liquid is pressed into the contaminated underground vein in the crushing zone to cure, thereby expressing a solid grouting effect.

Hereinafter, an embodiment of the present invention will be described.

The first embodiment of the groundwater heart well grouting method using the groundwater heart grouting device and method for filling the grouting solution according to the present invention by filling the grouting solution according to the present invention includes: In the excavation hole made through the weathered rock layer and the rock layer, it has a certain gap with the inner wall and is installed near the groundwater to prevent the contaminated surface water from flowing in and the corrugated pipe is formed at regular lengths so as to be inserted in the curved excavation hole. The in casing pipe is connected by using the attached pleated socket, and the balance hole is formed at regular intervals, and the lower part of the in casing pipe is installed to filter foreign matters from the groundwater, and it can be installed in a curved excavation hole. A corrugated pipe is formed every time, and a protrusion is attached to the outer circumferential surface. A well-known strainer pipe connected using a pleated socket, a heart pump installed inside the casing to pump ground water, and a well-known pump pipe connected to the heart pump so that ground water moves to the ground. And a shielding tube body fixedly installed at the lower portion of the encasing and having an expansion pack, and processing groundwater discharge and circulation holes inside the cylindrical body on the inner circumferential surface of the shielding tube and centering the groundwater discharge and circulation holes. Hose adapter device to expand and shield the expansion tube from the outside by installing the expansion tube on the upper and lower,

On the top of the encasing pipe, a shielding tube for inserting the connecting pipe connected to the grouting liquid injection tube to the outer circumferential surface to connect the encasing pipe and the empty wall, and filling the grouting liquid downward from the top between the encasing pipe and the empty wall. Grouting solution for injection pump.

The shielding tube has a thick thickness and is hollow so that the diameter of the casing is fixed with a connecting socket while maintaining the diameter of the casing. As the expansion pack is expanded, the expanded outer surface of the expansion pack is placed on the inner wall of the excavation hole. Pressed tightly to make the shielding. In particular, the expansion pack outer peripheral surface and the hollow wall due to the pressure difference generated according to the ground water level formed differently between the inside of the casing pipe and the casing pipe and the hollow wall formed when the expansion pack is expanded to shield between the casing pipe and the hollow wall. In order to prevent the leakage accidents that occurred between them, rubber expansion packs of sufficient thickness and strength were required to stop the hydraulic pressure.But, the balanced holes formed at regular intervals in the in-casing pipe are used to expand the expansion packs before grouting. By temporarily communicating the groundwater between the inside of the casing pipe and the casing pipe and the hollow wall so that the above water level is not formed for a while, the material of the expansion pack can be made extremely thin and soft, so that the initial shielding effect in the shielding body can be achieved. To maximize.

After the primary shielding is completed using the expansion pack of the shielding tube, the fast-hardening cement is injected into the upper part of the expansion pack of the shielding tube to quickly cure and harden. Then, the groundwater discharge and the circulation hose are connected to the outside while the shielding is completed. The installed hose adapter is lowered to the shielded pipe and installed. A connecting socket with a recess groove is attached to the upper part of the shielded tube, and an elastic protrusion part of the fixing protrusion installed at the top of the hose adapter device is pushed into the recess groove so that it can be correctly mounted at the fixed position. . The fixing protrusion is attached to the door handle and is like a protrusion that can move back and forth. The top surface is hemispherical and the bottom surface is perpendicular to the inner circumferential surface of the casing pipe. Even if the protrusion is caught in the groove of the connecting socket and it is no longer lowered, when the wire is pulled out using the wire pulling line, the hemispherical upper surface of the groove is naturally inserted into the fixing protrusion body. As it is reversed, it can be withdrawn to the outside without jam.

The ground water discharge and circulation holes configured in the hose adapter device according to the fixed position of the hose adapter device face exactly the perforated parts that are pre-formed in the shielded pipe. In this state, the high pressure gas container is supplied to the upper and lower expansion tubes. When high-pressure gas is injected, the upper and lower parts are shielded around the ground water discharge and circulation hole, and the space between the encasing pipe and the hollow wall passes through the perforated part of the shielded pipe and discharges and circulates the ground water of the hose adapter device. Through the groundwater discharge and circulation hose to the outside is made. In this case, the upper and lower expansion tubes may be expanded by injecting pressurized water instead of high pressure gas.

In addition, the hose adapter device may be a function of the expansion pack of the shielding pack by placing the lower expansion tube is located in the lower part of the casing pipe and the ground water ball wall.

In addition, the upper part of the incasing pipe exposed to the ground is provided with a cylindrical tube type expansion tube for the cover to function as a shielding cover, and then a connecting pipe for connecting with the grouting liquid injection tube in a vertical direction is inserted. After inflating the expansion tube for the cover and then hard cement on top of the expansion tube for the cover to be solidly laid and cured in a short time, and then to the grouting pipe connected to the connecting pipe to supply the grouting solution. In another embodiment of the shielding cover on the upper part of the encasing pipe, the donut-type tube is inserted into the upper part of the in-casing pipe, the connecting pipe is inserted into the outer circumferential surface of the donut-type tube, and then inflated by injecting compressed air or hard cement, and then expanded. It is also possible to install a fast cement on top of the donut-shaped tube, and in another embodiment, a shield cover with a grouting liquid inlet formed as an integral type can be fixed by using a band to out casing and encasing. would. At this time, the balance punching part formed in the incasing pipe at regular intervals uses compressed air or fluid by using an injection hose while putting a shielding movable expansion packer inside the casing pipe and placing it in the punching hole for balancing. When the expansion tube is inflated, the balance perforation portion is shielded, and the grouting liquid injected thereafter is not introduced into the in casing pipe through the balance perforation portion.

Groundwater core grouting method for filling the grouting solution according to the present invention configured as described above is filled with,

As described above, the expansion pack of the shielding tube is expanded to shield the shielding tube and the inner wall of the groundwater core. At this time, the groundwater is freely moved through the borax boring hole formed in the groundwater depth section of the casing pipe at a constant depth, so that the water level is between the groundwater head pressure inside the groundwater well and the groundwater head pressure between the shielding body and the inner wall of the groundwater well. As the pressure difference does not occur, a dense shielding effect can be expressed, and in this state, the fast hard cement injected into a constant thickness layer on the expansion pack is cured quickly to form a stable shielding layer.

After the above process is completed, the hose adapter connected to the groundwater discharge and circulation hose is set to a predetermined position, and then the upper and lower expansion tubes of the hose adapter device are inflated so that the upper and lower portions are centered on the groundwater discharge and circulation hole. Shield. Shut-off valves installed on the outside of the groundwater discharge and circulation hoses are left open.

In addition, the grouting liquid injection tube inserted into the shielding tube for the cover is connected to the grouting liquid injection pump installed and operated to pressurize the grouting liquid in the grouting liquid mixer which is stirred by the stirrer. Will be supplied. When the operation is progressed, the grouting liquid can be supplied after being mixed in a more concentrated state than when it is injected from the bottom up from the conventional bottom, and is rapidly pushed down due to the difference in specific gravity that is 1.5 times higher than the specific gravity of water. I will go. In this case, the grouting fluid falls down while filling the gap between the in casing pipe and the inner wall of the groundwater core while forming a constant boundary layer, which acts as if the piston pushes out the water, and the groundwater below the boundary layer continues to pierce the shielding body. And through the ground water discharge and circulation hole of the hose adapter device is discharged to the outside through the ground water discharge and circulation hose. When the grouting liquid injection pump was turned off and the grouting liquid was injected and lowered under natural pressure, the groundwater discharge and groundwater discharge were not discharged even though the natural water level inside the groundwater well was 3 meters below the ground surface. Continued. This is caused by the difference in specific gravity between grouting liquid and groundwater. When grouting liquid is injected by operating grouting injection pump, only the clean ground water is discharged initially, but the groundwater and grouting liquid are discharged in the mixed state. In the step, only the grouting liquid of the concentration injected by the grouting liquid injection pump is discharged to the outside through the groundwater discharge and the circulation hose. The volume filled for grouting between the casing pipe of the groundwater well and the inner wall of the groundwater well is 200 mm in diameter and 50 mm in grouting thickness. × 3.14 ÷ 4)-(0.15 × 0.15 × 3.14 ÷ 4)] × 50 = 0.686875 cubic meters, which is only a small volume not exceeding one cubic meter, and never takes into account the volume of the crushing zone into which the contamination index flows. Since it does not occupy a large volume, the groundwater discharge and circulation through the grouting liquid injection pump can be achieved quickly.

Meanwhile, the grouting liquid mixed with the groundwater discharged through the groundwater discharge and circulation hose is introduced into a separate mixer to reconstitute the concentration and re-inject into the grouting liquid injection pump to prevent loss of the grouting liquid.

At this time, the contaminated ground water flowing from the contaminated surface water vein on the inner wall of the groundwater core is stopped with the grouting liquid filled between the casing pipe and the inner wall of the groundwater core. It will flow back into the vein and grout to the inside of the vein. When grouting liquid needs to be injected deeply into the contaminated water surface, the grouting liquid injection pump is operated while the grouting liquid injection pump is operated while the shutoff valve installed in the groundwater discharge and circulation hose is locked. The injection pressure of the grouting liquid between the casing pipe and the inner wall of the groundwater well is reduced due to the continuous inflow of the grouting liquid supplied to the grouting liquid injection tube while shielded by the shielding tube and shielded by the shielding tube and the hose adapter. The grouting solution is injected up to the depth of the contaminant indicator water.

If the grouting liquid is continuously introduced due to the crushing layer of contaminated water vein, the grouting liquid is continuously lost, and the grouting liquid is stopped. After that, curing is first performed, and then the grouting liquid injection pump is operated. Allow filling to occur. When the injection of the primary grouting solution is completed, the hose adapter device installed inside the shielding tube is pulled to draw the wire rope and groundwater discharge and circulation hose to the outside before the grouting solution is completely cured and cured. After that, a heating device using a heating wire or a boiler was installed inside the encasing pipe to increase the groundwater temperature so that curing of the grouty liquid could be achieved quickly.

In addition, the hose adapter device is to shield the upper and lower sections of the groundwater core well by the shielding packer boundary by the upper and lower expansion tubes, so that the groundwater on the upper side of the hose adapter device is provided in the incasing pipe. Will be. When the depth of grouting is deep, the head pressure due to the grouting liquid must be kept extremely high.In this case, if strength is not secured due to the thickness of the casing pipe or the characteristics of the material, the grouting liquid injected into the grout is finally ruptured. If the stainless steel is inflowed into the groundwater well, and the stainless steel is blown into the groundwater well, the proper diameter of the heart well cannot be secured, and as a result, even the solid grouting is not achieved, it can lead to a waste disposal. Therefore, the filling pressure of the grouting fluid between the encasing pipe and the inner wall of the well and the casing pipe by continuously supplying water into the groundwater core well through the main hose connected from the outside to the inside of the casing pipe that is securely shielded by the hose adapter device. By offsetting the pressure difference between the head and the head pressure, stable grouting filling and curing were achieved.

In addition, the method of the groundwater core well to be filled by the downward injection of the grouting liquid using the grouting device,

First, the process of shielding the lower end of the casing pipe and the casing pipe down the encasing pipe,

Second, the step of expanding the upper and lower expansion tube by setting the hose adapter device to shield the upper and lower portions of the hose adapter device to the ground water discharge and circulation holes,

Third, the grouting liquid is circulated and discharged through the groundwater discharge and circulation hose by filling the grouting liquid downwardly through the grouting liquid injection tube connected to the top of the casing pipe, so that the grouting liquid can be reliably filled in the grouting section.

Fourth, the hose adapter device was configured to draw out to the outside and curing the grouting solution.

Through the above embodiment, the need for excessive equipment due to the injection pressure of the high grouting liquid generated in the process of upwardly injecting from the bottom of the conventional casing pipe is reduced, and the simplicity of the operation is secured as well as the grouting with the injection pressure of the grouting liquid injection pump. Rapid grouting, groundwater discharge and grouting circulation due to the difference in specific gravity of the liquid make it possible to grout solidly, and grouting can be easily injected deep into the contaminant water vein.

In addition, since the work can be easily and reliably carried out at low depths as well as at high depths, the ripple effect of the technology is quite large.

Claims (10)

In the grouting device of the groundwater heart well which can be filled by injecting the grouting liquid to make the shielding wall installed in the excavation hole to prevent the inflow of surface water contaminated in the groundwater heart well, The grouting solution is shielded by the lower part of the casing pipe and a hose adapter is installed to inject the grouting solution downward from the upper part while the groundwater discharge and circulation hose are drawn out to circulate and fill the grouting solution. A grouting device for groundwater deep wells that can be injected and filled. The method of claim 1, The shielding of the lower portion of the encasing pipe is ground grouting device for filling the grouting solution to the bottom of the injecting grouting liquid, characterized in that consisting of a shielding pipe is installed and the expansion pack is installed. The method of claim 1, The hose adapter device forms a connector for connecting the groundwater discharge and circulation hose at the center of the upper part, and the connector is connected to the groundwater discharge and circulation hole on the side, and the upper expansion is above and below the groundwater discharge and circulation hole. A grouting device for groundwater deep wells to be filled by injecting the grouting liquid, characterized in that the tube and the lower expansion tube is installed downward. The method of claim 1, A grouting device for groundwater deep wells for filling and filling down grouting fluid, characterized in that pressurized injection of grouting fluid is possible by installing a shutoff valve on the outer side of the groundwater discharge and circulation hose. The method of claim 1, Hose adapter device is to seal the upper and lower parts of the encasing pipe to fill the water injected by the main hose to the inside of the casing pipe to offset the pressure difference between the inside and outside of the casing pipe grouting solution during grouting injection process A grouting device for groundwater cores that can be filled by injecting a grouting liquid downwardly to prevent rupture or deformation of the encasing pipe due to high pressure. The method of claim 1, Balanced head pressure in the grouting process by forming a balance punching part at regular intervals on the in-casing pipe, and filling the grouting liquid by injecting the grouting liquid downwardly in order to shield by installing a movable expansion packer. A grouting device for groundwater deep wells. The method of claim 1, The hose adapter is provided with a fixing protrusion and the protrusion is moved forward and backward so that the protrusion is set in the recessed groove formed in the shielded tube so that the hose adapter can be easily identified and fixed from the outside. A grouting device for groundwater deep wells, which allows the grouting liquid to be injected downward for filling. The method of claim 1, A grouting device for groundwater cores to fill and fill the grouting liquid, characterized in that the shielding cover is installed on the upper part of the encasing pipe and the grouting injection tube is connected. The method of claim 1, The hose adapter device has a bottom expansion tube located at the bottom of the encasing pipe and the groundwater hollow wall to function as an expansion pack of the shielded pack. Grouting device. In the grouting method of the groundwater heart well to be injected by filling the grouting liquid downward, First, the process of shielding the lower end of the casing pipe and the casing pipe down the encasing pipe, Second, the step of expanding the upper and lower expansion tube by setting the hose adapter device to shield the upper and lower portions of the hose adapter device to the ground water discharge and circulation holes, Thirdly, the grouting liquid is circulated and discharged through the groundwater discharge and circulation hose by filling the grouting liquid downwardly through the grouting liquid injection tube connected to the upper part of the casing pipe, and the grouting liquid is reliably filled in the grouting section. Fourth, the grouting method of the groundwater core feeling to be filled by the downward injection of the grouting liquid, characterized in that the hose adapter device is configured to be drawn to the outside and curing the grouting liquid.