KR100955667B1 - Pipe removing method and device for processing equipment of underground water hole - Google Patents

Abstract

The present invention is to prevent the degradation of the backfill effect by reducing the bridge phenomenon that the backfill material, which is put in to fill the wells in the middle of the wells can not reach the bottom when removing the casing pipe of groundwater insoluble pores to achieve the work quickly The present invention relates to a method of removing a casing pipe of groundwater insoluble by a blow and a device for removing the casing pipe, wherein the connecting member is fixedly mounted on an upper end of a casing pipe in a buried state, and the mounted member is blown upward by a blow device. The buried casing pipe was pulled out and at the same time vibrated so that the backfill material introduced into the casing pipe could reach the bottom without clogging.

Impact device, connecting member, support means, drawing device

Description

Pipe removing method and device for processing equipment of underground water hole}

The present invention relates to a method for removing a casing pipe of a groundwater insoluble hole by a blow, and a device for removing the casing pipe, and more particularly, a backfill material inserted to fill a well when the casing pipe is removed is blocked in the middle of the well and does not reach the bottom. By suppressing the bridge phenomenon, it prevents the backfill effect from deteriorating and enables the work to be performed quickly.

In general, groundwater incompetence refers to wastewater that is not used anymore because the ball excavated for the use of groundwater development or geological survey does not meet the original expectations or achieves its intended purpose.

These inadequate pores serve as a passage for moving the inlet or inflow source of the ground pollutant to the deep underground, and there is a problem in that it acts as a pollutant.

Insoluble balls can be recycled to intake sources or observation holes, or incomplete holes can be backfilled by putting backfilling materials such as sand or gravel cement to prevent inflow of surface pollutants into the air and block vertical movement of pollutants. It removes the casing pipe to prevent groundwater contamination and restores to the original groundwater-free environment, removes unused wells to restore the surface environment around the wells, and to prevent safety accidents such as falls in the case of large diameter balls. Attempts have been made to restore the ball back to normal.

Conventionally, in order to recover the ball by using the backfill material for insoluble holes, remove foreign substances in the ball and disinfect the wells, inject the permeable backfill material and the impermeable backfill material sequentially, and then remove the casing pipe. Negative surface treatment was performed.

In this case, in order to remove the casing pipe in the buried state, a method of sequentially removing the casing pipes from the ground and then cutting them has been used.

Conventionally, in order to pull out the casing pipe in a buried state out of the ground, a flat lower plate such as an iron plate is installed on the surrounding surface of the embedded casing pipe, and an upper plate member spaced parallel to the upper surface thereof is removed, and then the casing to be removed from the upper plate. After fixing the upper end of the pipe was to operate the hydraulic jack installed between the lower plate and the upper plate to pull out the casing pipe.

However, in the conventional method of removing the casing pipe by the hydraulic jack, it is cumbersome and time-consuming, such as installing the lower plate and the upper plate, and the power of the hydraulic jack acts not only upward but also downward. There is a problem that it is difficult to achieve rapid work because additional work processes such as delay of work and flat work of the ground and reinstallation of the lower plate and the upper plate may occur.

In particular, when the casing pipe is pulled out, the overall work delay, such as slowing down or slowing down the loading time of the backfill material, is required to prevent the bridge phenomenon that the backfill material injected through the casing pipe gets caught in the middle of the pipe and cannot reach the bottom. Another problem was the need to take additional measures to address the requirements.

Therefore, the first object of the present invention is to provide a casing pipe removal method of the groundwater insoluble hole by the blow that can be quickly and easily removed by removing the casing pipe to shorten the work preparation process as possible, and the removal device,

A second object of the present invention is to remove the casing pipe of groundwater insoluble holes by vibrating the casing pipe so that the backfill material introduced through the casing pipe is not caught in the middle, and at the same time, the casing pipe can be pulled out. To provide a removal device,

An object of the present invention, by fixing the connecting member to the upper end of the casing pipe in the buried state and by hitting the mounted connecting member upwards using the striking device to extract the embedded casing pipe while generating vibration at the same time was introduced into the casing pipe The backfill material is allowed to reach the floor without clogging.

According to the method of removing the casing pipe of the groundwater insoluble hole by the impact of the present invention and the removal apparatus thereof, the work can be started quickly without combining the lower plate and the upper plate, so that the casing pipe can be removed quickly and easily The upward blow applied to pull out the casing pipe causes the entire casing pipe to vibrate, thereby facilitating the fall of backfill material introduced into the casing pipe, thereby preventing the delay of work for clogging the backfill material. Has

In addition, since the installation of the lower plate is not necessary, there is an effect that it is possible to prevent the delay of work due to ground subsidence around the casing pipe.

In the method of removing the casing pipe of the groundwater insoluble hole by the impact of the present invention, in the method of removing the casing pipe of the groundwater insoluble hole to remove the casing pipe forming the closed insoluble hole after performing groundwater collection or geological investigation. The upper end of the casing pipe exposed to the ground is fixedly coupled to the lower end of the connecting member to form a straight line in the longitudinal direction, and the upper end of the connecting member is pinned to the striking device that is supported by the support means to the upper hit of the striking device It is characterized in that by removing the casing pipe pulled up by cutting.

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention. First, in describing each of the drawings, only the same components have the same reference numerals as much as possible even if shown on different drawings.

1 is a schematic view showing the configuration of the present invention.

According to the drawings, the present invention provides a casing pipe removal device of groundwater insoluble holes for removing the casing pipes that form the closed hole after the use of ground water after collecting or geological survey, the removal device is embedded casing The rod-shaped pipe connecting member 10 is connected to the upper end of the pipe and fixedly coupled to the upper end of the pipe, and the striking device 20 coupled to the end of the pipe connecting member 10 and strikes upward. It consists of a support means 30 which supports the device 20 so that it can be maintained in a vertical state.

According to an embodiment, the striking device 20 may be made of a hydraulic brake car as shown in FIG. 2, and the back head 200 is coupled to the lower portion of the cylinder 210, and the front of the upper portion of the cylinder 210. The head 240 is configured to be connected to the bolt 220. A piston 230 having a predetermined length is fitted to the cylinder 210, and the upper end of the piston 230 is configured to abut on the lower portion of the striking rod 250 fitted to the front head 240, and the cylinder 210 As the oil of the hydraulic line not shown in the oil is injected through the accumulator and the valve, the piston 230 is operated so that the upward strike by the striking rod 250 is made.

At this time, the support means 30 can use a crane or an excavator, such as by fixing the striking device 20 to the bracket provided on the arm end of the crane or excavator, the striking device 20 can maintain a vertical state The lifting and lowering of the hitting device 20 according to the height of the casing pipe pulled out so that the lifting device 310 can be freely lifted or the lifting device 310 is formed to form a support 300 perforated To keep it vertical.

The lower end of the connection member 10 is fixedly coupled to the upper end of the casing pipe and the upper end is coupled to one end of the striking device 20.

At this time, as shown in FIG. 3, the connecting member 10 fixedly coupled to the upper end of the casing pipe is tapered conical body 100 and the inner circumferential surface thereof so that the lower end is widened toward the lower end. The close contact piece 110 and the close contact piece 110 divided into a plurality of pieces which are in close contact with the outer circumferential surface of 100 and the outer circumferential surface are in close contact with the inner circumferential surface of the casing pipe and expand and contract according to the lifting and lowering of the body 100. It is formed of an elastic body 120, such as a spring tightening the outer peripheral surface of the upper end may be made of a shape provided with a bracket 130 to be fixed to the striking device 20.

At this time, the bracket 130 is pivoted by a predetermined angle by being coupled to the connecting member 10 can be pulled out of the casing pipe even if the striking device 20 is not located in line with the casing pipe. will be.

On the other hand, the connecting member 10 is formed in a rod shape can be directly fused by a method such as welding to the casing pipe to form a coupling with the casing pipe.

In order to use the casing pipe removal device of the groundwater insoluble hole by the blow of the present invention having the configuration as described above, after removing the foreign matter in the hole and the well disinfection, the backfill material is put into the upper end of the casing pipe connecting member 10 And the striking device 20 are sequentially coupled, and then the upper end of the striking device 20 is coupled to the arm bracket on the excavator and the striking device 20 is operated, and the casing pipe is pulled out by the striking device 20 and blows. The backfill material injected by the vibration generated by the vibration is lowered and accumulated to the floor without clogging.

At this time, adjust the arm height of the excavator as much as the height of the casing pipe pulled up, and then cut and remove the casing pipe pulled out at the maximum pulled-up state to remove the casing pipe forming the closed hole completely What is necessary is just to perform a negative surface treatment.

According to another embodiment of the present invention, the present invention provides a drawing device 40 is provided on the ground for providing power for drawing the casing pipe buried underground by the hydraulic cylinder 400 capable of raising and lowering operation It is further provided to operate simultaneously with the striking device 20 or alternately to make the removal of the casing pipe more quickly and easily.

1 is a schematic view showing the configuration of the present invention.

2 is a block diagram of a striking device according to an embodiment of the present invention.

3 is a block diagram of a connection member according to an embodiment of the present invention.

3 is a schematic view showing a configuration according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawing

10: connecting member 20: striking device

30: support means 40: drawing device

100: body 110: close contact

120: elastic body 130: bracket

200: back head 210: cylinder

220: bolt 230: piston

240: front head 250: batting rod

400: hydraulic cylinder

Claims (4)

delete delete delete Rod-shaped pipe connecting member 10 connected along the longitudinal direction and fixedly coupled to the upper end of the casing pipe embedded to remove the insoluble holes closed to the full after a groundwater or geological survey, etc. And a striking device 20 coupled to an end of the pipe connecting member 10 and striking upward, and a support means 30 for supporting the striking device 20 so that the striking device 20 can be maintained vertically. In the casing pipe removal device of the groundwater insoluble hole by the blow, the connecting member 10 has a lower end portion is tapered conical body 100 and the inner peripheral surface is in close contact with the outer peripheral surface of the body 100 The outer peripheral surface is in close contact with the inner peripheral surface of the casing pipe and the contact piece 110 and the contact piece divided into a plurality of pieces that are expanded and contracted as the body 100 moves up and down. Casing of groundwater insoluble holes by the blow, characterized in that the bracket is formed by the elastic body 120, such as a spring tightening the outer peripheral surface of the 110 and coupled to the striking device 20 Pipe remover.

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