KR910001705B1 - Method for constructing vertical pipe well - Google Patents

Abstract

This method is to support in dispersion the load of the pipe sunk deep underground to construct the deep vertical pipe well in the hot spring. The load of the water-pump- pipe is dispersed by supporting ball at the seam being formed in the well, and thus the water-pump- pipe is set upright in the well.

Description

Load distribution support method of high depth hot water pump and support

1 is (a) (b) is an embodiment of the present invention.

2 is a perspective view of the support of the present invention.

Figure 3 is an eshido showing a state of supporting the support of the present invention to the pumping pipe.

Figure 4 is an illustration of the load action of the pump pipe of the present invention.

Figure 5 is an illustration of the load action of the pipe portion of the conventional pump.

* Explanation of symbols for the main parts of the drawings

H: Nagong S: Fault

P: Pump pipe F: Flange

B: Tightening screw Pm: Pumping pump

Mo: Motor T: Supporting Sphere

1: support tube 5: brace

6: support plate.

The present invention relates to a load distribution supporting method of a high-depth hot spring pump and its support.

In the present invention, in the vertical installation of the pumping pipe vertically in a high-stage multistage hollow hole of 500-900m or more, unlike the conventional method in which the pumping pipe is installed on the ground, the load of the pumping pipe is a single layer of the pores. It is installed to be contact-dispersed every time, and the pump pipe supported on the single layer of the hole is changed to the supported state, and the joint surface of each pipe joint flange of the pump pipe is compressed by the self-load of the pump to increase the durability and joint strength of the joint. The present invention relates to a load distribution support method for a high-depth hot spring pump, characterized in that it can be safely pumped without any force due to the load of the fastening screw.

In addition, the present invention relates to a support that is most suitable for the implementation of the load distribution support method of the pump as described above a plurality of annular support plate of the size that can contact the single layer of the hole on the outer periphery of the support tube that can be brought into contact with the pump When the pump pipe is formed integrally by two props and installed in the hole, the support plate of the support pipe is installed between the pump pipes so that the support plate of the support pipe is supported on the fault surface of the hole at each fault of the hole. Through it will be able to be safely supported on the fault of the hole.

In addition, the present invention distributes the load of the pump by distributing the load of the pump by supporting the pump in a single layer of the inner cavity of the conventional pipe is tensioned by the load of the pump, and the joint of the flange is loosened and the leaked pedan was leaked The purpose of the present invention is to provide a method for supporting and distributing the load of a pump in a single layer of a porous hole with a capacity to install a pumping pipe without a separate mechanism in a high-level hole monolayer.

In view of the level of domestic hot springs, a sufficient amount of hot spring water could be pumped in 1981 by installing a pumping pump at a depth of 30-50m in Nagong, which can be seen in Onyang hot springs and Dongnae hot springs. .

However, as the capacity of hot spring water gradually increases, the groundwater decreases, and during that time, the water level has dropped to 350-600m, and recently, the water level has dropped below 700-900m, and it is unpredictable to the depth of the future. It is estimated that the depth of Nagong will be over 2000-3000m when it reaches the stage of use.

Conventionally, the method of installing a pump in a hole is to insert a pump of a desired length and thickness into the hole to support the upper end of the pump at a support point on the ground, and to install the pump in the state of the pump. .

The most serious problem is that the magnetic load of the pump is very large. At present, the inner diameter of the pumping pipe installed in the hot springs of Nagong is about 89mm (3 inches), and the inner diameter of the upper side pumping pipe is about 127mm (5 inches) in the case of the high depth.

When the pump is installed at a depth of 700m, the pump's weight is over 7t, and the two-stage pump pump mechanism, the load of the human body in the pump, and the shock load caused by the rising reaction of the water during pumping Taken together, the total weight is more than 10t. Of course, if the inner diameter of the pump is large, the total load will increase in proportion to it.

This enormous load is concentrated on the support point of the ground pump, and in reality, there is no difficulty in reinforcement of the support point, but the load on the joint of the flange joined to the pipe end of each unit length of the pump is causing serious obstacles.

That is, the load of the pipe weight difference of the unit length is sequentially applied from the flange (F ₁ ) of the upper end of the pumping pipe to each of the head (BH) of the 6-8 fastening screw (B) joined to these flanges The contact area of the nut BN does not exceed 10 cm ² in the flange unit.

Therefore, as the fastening screw B of the uppermost flange F ₁ of the pumping pipe concentrates a load of 10t or more for a contact area of less than 10 cm ² , the tensile force is increased in the direction of the arrow with respect to the screw as shown in FIG. The large action causes the screw to stretch or cut beyond its tensile strength.

Therefore, as the joint strength of the upper and lower flanges decreases, the shielding function of the packing (PC) is lost, and the high water pressure at the time of pumping causes water leakage to the joints of the flanges and accelerates the rupture of the joints.

At this time, if water pressure fluctuations are detected at the time of pumping and do not respond immediately, the pumping pipe is cut into the deep hole while cutting off the joint, and once it is pulled out, it becomes impossible to recover. In addition, replacement and repair of a ruptured pump is very difficult and cumbersome and has a very large economic burden.

The present invention has been developed a new method for supporting and supporting the load of the pump pipe in the underground pore in order to correct the problems caused by the load in the high-depth hot spring, which will be described in detail by the accompanying drawings as follows. .

FIG. 1 is an exemplary view showing an embodiment in which a conventional pumping pipe installed inside a pore of the present invention is dispersed and supported in a single layer of a pore.

That is, a single layer (S) is necessarily formed in the porous hole (H) by the method for excavating the high depth of the hole (H), and the present invention is a method of using the single layer (S) to distribute the load of the pump. .

Before installing the pump, the depth of the hole (H) and the position of the fault (S) are accurately measured and recorded. Therefore, the support hole for each position of the fault (S) in the pump (P) to be installed in the hole (H) according to this record. A pumping pipe is installed so that the pumping pipe can be dispersed and supported in the single layer S through (T).

At this time, the support (T) is a configuration that can effectively hold the pumping pipe (P) is a size that can be caught on the single layer (S) and the support (T) blocks the top and bottom of the pores (H) or the flow of water Do not disturb.

In addition, the support (T) may be configured to be coupled to the pumping pipe (P), or may be interposed between the pumping pipe to be configured as an independent support, anyway attached to the pumping pipe. In addition, the number of supports (T) is determined by the number of each of the faults (S1, 2, 3) of the perforations, if the ground of some of the faults is beneficial, the support is omitted by the other support to the fault Pump can also be supported.

According to the present invention, when a pump is installed to be distributedly supported on a single layer of a hole by a support, the pump is converted into a state in which the pump is held up, unlike a conventional hanging state, so that the physical phenomenon of the flange and the fastening screw due to the load is increased. It is opposite. That is, as shown in FIG. 4, the load of the pumping pipe acts in the direction of the arrow so that the joint surface of the flange (F) of the unit length pipe of each pumping pipe is pressed very strongly, and the sealing property of the packing (PC) becomes large, when pumping. Even at high water pressure, there is no fear of leakage due to the joint of the flange, and there is no fear of rupture due to the load of the pump.

In addition, the screw (B) fastened to the flange does not have any tension phenomenon due to the load of the pump, but the degree of maintaining the fastening strength of the flange is very high fastening screw safety.

In the present invention, since the support is formed in the pumping pipe and is caught by the fault, the installation workability is as good as there is no fear of falling out of the pumping pipe at the time of installation of the pumping pipe. In addition, even if it is inevitable to replace due to aging after the installation of the pump, there is no additional work by the support, but can simply replace the pump by lifting the pump from the hole.

In addition, since the load of the pumping pipe is not concentrated on the ground support portion G of the pumping pipe as in the prior art, the facility for reinforcing the portion is omitted, thereby reducing the installation cost and making it easier to handle the pumping pipe. Compared to the running installation method, it is possible to effectively pump high-depth hot spring water more safely and safely.

EXAMPLE

1 is an illustration of the support tool most bonded to the actual machine of the present command.

That is, a normal joint flange (2) (2`) is formed at both upper and lower ends of the support pipe (1), and pumping is provided in the high depth hole by using the screw hole (3) formed in the flange (2) (2`) It is to be joined at an appropriate position between the pipes (P), and at the outer edges of the flanges (2) and (2`), a groove (4) is formed to guide the electric wire of the underwater motor and the outside of the support pipe (1). The annular support plate 6 is integrally joined to the support tube 1 by the plurality of props 5 in a state where the annular support plate 6 is fitted to the support tube 1 to form the support tool T on the peripheral lower side.

The outer diameter of the support plate 6 of the supporter T is sized to be caught by the single layer 5 in the hole H at the position where the supporter T is to be placed, and thus the support plate 6 of the supporter T by position. ) Is different in size.

In addition, the upper end of the support 5 of the support (T) can be welded or detachably coupled to the main surface of the support tube 1, and the lower end of the support (5) is joined to the surface of the annular support plate (6). . The support tool T is comprised from the support pipe 1, the brace 5, and the bark board 6. As shown in FIG.

In addition, the brace angle θ bonded to the support tube 1 on the support plate 6 should be 45 or more and the angle is larger.

Therefore, the brace angle θ bonded to the support tube 1 on the brace 5 support plate 6 should be 45 or more and the larger the angle is.

In addition, the support plate (6) and the support (5) of the support (T) has a predetermined space with respect to the outer circumferential surface of the support pipe (1), and due to this space in the hole (H) without blocking the hole (H) Water can flow up and down the support plate 6.

3 is an exemplary view in which the supporting tool T of the present invention is installed to be supported by the single layer S of the pores H in contact with an appropriate position between the pumping pipes P. As shown in FIG.

At this time, the number of supports (T) bonded to the amniotic pipe (P) is determined by the number of the monolayer (5) formed in the hole (H) and the interval between the upper and lower supports is equal to the upper and lower fault distance.

Therefore, each support (T) of the pumping pipe (P) installed in the hole (H) is the ground plate 6 is grounded at each single layer (S1, 2, 3) of the corresponding position and the load of the pumping pipe (P) The support plate 6 is dispersed in each single layer 5 of the pores in contact with each other via the support 5 formed in the support tube 1 of the support tool T. Due to this, the pumping pipe P is installed in a state where the pumping pipe is held up by the supporter T, unlike the conventional hanging state.

In addition, in the present invention, the support (T) can be carried out in a configuration that can be caught in a single layer of the hole in addition to the configuration shown in the embodiment of Figure 2 and the support can be changed in design.

The support (T) of the present invention is coupled between the pumping pipe (P) as a part of the pumping pipe (P) by the support pipe (1) by the brace 5 and the support plate (6) formed in the support pipe (1) Since it is configured to be distributed and supported on the single layer 5 of the hollow hole (H), when the pumping pipe is installed, the pumping pipe is safely installed on the single layer without falling out of the hole, and the pumping pipe is aged. Even when the replacement or repair, the support is also pulled out of Nagong by pulling the water pipes out of Nagong without any additional work due to the support. This means that workability is very simple.

The supporter of the present invention distributes and supports the pumping pipes per single layer in the cavity so that the load of the pumping pipe is dedicated to increasing the joint strength of the joint flange of the pumping pipe so that the high-depth hot spring water can be safely pumped without fear of leakage in the high pressure pumping. It can be effective.

Claims (2)

In the vertical installation of pumping pipes in hot springs of high depth, the pumping pipes (P) are distributed to each single layer (S) formed in the hole (H) by the support (T) so that the pumping pipes in the holes A load distribution supporting method for a high-depth hot spring pump, characterized in that the installation is held up. In the support for distributing the load of the pump to the single layer of the hole, an annular support plate having a size such that the hole can be caught on the single layer is provided on the outer periphery of the support tube joined to the pump. A load distribution support for a high-depth hot spring pump, characterized in that it is integrally formed and coupled to the pump at the fault location of the hole.

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