KR101396514B1 - Coupling structure of leading pipe for underwater prefabricating intake tower - Google Patents

Abstract

The present invention relates to a structure for a conduct pipe connecting device of a prefabricated intake tower for water intake and, more specifically, a structure for a conduct pipe connecting device of a prefabricated intake tower for water intake, capable of tightly connecting a conduct pipe passing through a dam main body and an outlet pipe connected to a main body of the intake tower to discharge row water collected in the main body of the intake tower in water among facilities of the intake tower installed underwater through a prefabrication type construction method after being manufactured by being divided into metal units on the ground.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water-

[0001] The present invention relates to a water pipe connection structure of a water intake structure for a water intake, and more particularly, to a water pipe connection structure of a water intake pipe for water intake, which is divided into a plurality of metal units on the ground, The present invention relates to a water pipe connection structure for a water intake pipe for water intake so that a water discharge pipe connected to a water intake tower body and a water pipe passing through a dam body can be tightly connected in water so as to discharge raw water taken out.

As is well known, the water intake tower is installed in a river, a dam or a reservoir, and is installed for the purpose of taking water required for irrigation water, domestic water, industrial water, etc. and supplying it to a downstream area or a necessary area.

Such a water intake tower has been constructed as a concrete structure at the same time as the construction of a dam, a bank, etc., in a state where the water is not completely filled in the area planned as the reservoir.

Therefore, in the construction of the conventional water intake tower, there is a disadvantage in that the construction period according to the construction of the concrete structure is long. However, since there is little or very little underwater work, there is not much difficulty in constructing the main body of the water intake tower, .

On the other hand, if the required amount of water in the downstream area increases in recent years, it is required to increase the water intake tower to supply the water to the downstream in the existing reservoir.

However, in the case of constructing the main body of the water intake tower as a concrete structure in a reservoir that has already been constructed and reserves water, it is encountered in various fallen pipes due to the underwater concrete operation. In addition to the installation of the water discharge pipe, Due to the great difficulty, it is not possible to carry out the construction in Korea despite the serious water shortage in the downstream.

Therefore, in order to increase the water intake tower that can supply the water to the downstream side in the reservoir which is already constructed and reserves water, development of a new construction method that can construct the water intake tower smoothly in water has become an inevitable task.

In the prior art, which has partially overcome such a problem, there is a Korean Utility Model Registration No.0262901 (Jan. 18, 2002) "Drainpipe connection structure of a prefabricated water intake tower for water intake".

In the improved prior art, there is disclosed a prefabricated water intake tower construction method in which a water intake tower is divided into several metal units, preliminarily manufactured on the ground, and these units are transported to an installation site and are assembled sequentially from the bottom floor.

However, in the case of the improved prior art, there is a possibility of water infiltration into the secondary housing, which necessitates improvement.

Korea Utility Model Registration No. 0262901 (January, 18, 2002) "Wastewater connection structure of prefabricated water intake tower for water intake"

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the prior art, and it is an object of the present invention to provide a water discharge pipe connected to a water intake tower main body and a water pipe passing through a concrete wall of a dam, And a joint housing can be installed at the joint position of the pipe to perform a jointing operation between a discharge pipe and a water pipe through welding or the like so that the water pipe can be connected quickly, easily, and tightly. There is a main purpose in providing a hose connection structure.

In order to achieve the above-mentioned object, the present invention provides a water treatment system comprising: an excavation hole (10) passing through a predetermined position of a dam main body (100) installed to block water flowing down from an upstream side in an upstream and downstream direction; A discharge pipe (20) having one end connected to the lower part of the water intake tower main body (200) constructed to be assembled in water in the reservoir and the other end extending toward the drilling hole (10); Wherein the other end of the discharge pipe (20) passes through the connection hole (32a) opened to one side plate (32) of the hollow tube and has a larger diameter than the discharge pipe (20) (30); A supporting flange (40) located on the outer side of the secondary housing (30) and fixed to the outer peripheral surface of the other side of the discharge tube (20); A pair of fixing bolts B tightly fixed to the supporting flange 40 through the plurality of adjusting bolts B and the nuts N with one side plate 32 having the connecting hole 32a of the secondary housing 30 formed therebetween, A packing flange (50); A pair of rubber seal members 60 sealing the cross-sectional clearance between the connection hole 32a of the secondary housing 30 and the packing flange 50; An expansive rubber material 70 attached along the other end of the housing 30 and adhered to the wall surface of the dam body 100 at the upstream side; And a water pipe (80) which is connected at one end to the other end of the discharge pipe (20) and extends to the downstream side of the dam through the hole (10) of the dam body (100) In the structure of the water pipe connection device of the water intake tower, A plurality of ball valves 21 are installed inside the other end of the discharge pipe 20 and the concrete is inserted into the space between the outer surface of the discharge pipe 20 and the inner surface of the order housing 30 through the ball valves 21. [ Tightly packed to the wall surface of the upstream side of the dam main body 100; The body seal member 300 made of a silicone material is provided in the dam body 100 at a lower position where the expansive rubber material 70 is installed, And is fixed on the dam body 100 via the fixing anchor 310; A plurality of sealing grooves 320 are formed on the front surface of the body sealing member 300 so as to be spaced apart from each other along the longitudinal direction; A fixing plate 400 is vertically fixed to a lower portion of the tube 31 of the secondary housing 30; The rear end of the tightening cylinder 410 is fixed to the front surface of the fixing plate 400; A tightening rod 420 is connected to the front end of the tightening cylinder 410 so as to protrude and retract; A 'U' -shaped support bracket 430 is integrally fixed to an end of the contact rod 420; A sealing connection plate 440 is fixed to the support bracket 430; A sealing plate 450 made of a silicone material is interchangeably fixed to the sealing connection plate 440; A sealing protrusion 452 protruding from the front surface of the sealing plate 450 to be inserted into the sealing groove 320 at a position corresponding to the sealing groove 320; And a sealing sealing portion 442 is formed on an upper end of the sealing connection plate 440 to be supported on one end surface of the other side ring 35. [ Lt; / RTI >

According to the present invention, in order to connect and install a discharge pipe connected to a water intake tower main body constructed in a prefabricated manner and a water pipe passing through a concrete wall of a dam, a water housing is installed at a joint position, By making it possible to perform the jointing operation between the discharge pipe and the water pipe, the two pipes can be connected tightly and the jointing operation can be performed quickly and easily.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front elevational view of an assembled water taking-
Fig. 2 is a plan view of the installation state of the prefabricated water intake tower to which the present invention is applied
3 is a cross-sectional view showing the connection structure of the water intake pipe of the prefabricated water intake tower according to the present invention.
Fig. 4 is a side view of an order housing used in the present invention. Fig.
5 is a detailed sectional view showing a connecting portion between the discharge pipe and the secondary housing and a close contact portion between the expansive rubber material and the dam body in the construction of the water pipe connection structure of the prefabricated water intake tower according to the present invention
Figure 6 is an exemplary cross-sectional view of a further embodiment according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention utilizes the above-mentioned prior Japanese Patent No. 0262901 as it is. Therefore, all of the features of the device configuration described below are those described in Patent No. 0262901. [

However, the present invention is characterized in that the additional embodiment portion in which a specific configuration is partially improved in order to achieve the object of the configuration disclosed in the above-mentioned Japanese Patent No. 0262901 is the most important configuration feature.

Therefore, the device structure, characteristics, and operation relationship described below will be referred to as the contents of the above-mentioned Japanese Patent No. 0262901, and the configuration related to the main features of the present invention will be described in detail at the rear end.

1 to 3, there are provided an excavation hole 10 formed at a predetermined position of the dam main body 100, a discharge pipe 20 connected to the water intake tower main body 200, A pair of supporting flanges 40 provided on the other side of the differential housing 30 and a pair of supporting flanges 40 for holding the connection portion between the differential housing 30 and the supporting flange 40 A pair of packing flanges 50 and a pair of rubber sealing materials 60 and an index rubber material 70 for sealing the space between the order housing 30 and the dam main body 100, And a water pipe (80) connected to the other end.

In the preferred embodiment of the present invention, the discharge pipe 20, the order housing 30, the supporting flange 40, and the drain pipe 80 are made of metal, and the outer surface is treated with a ceramic coating to improve corrosion resistance.

The excavation hole 10 penetrates the dam body 100 installed in the upper and lower direction to block the water flowing down from the upstream and confine it.

As shown in FIG. 3, the drilling hole 10 is formed to have a diameter enough to pass through the water pipe 80 installed later.

One end of the discharge pipe 20 is connected to the intake tower main body 200 through an underwater electric butterfly valve 202 while passing through the outer tube 201 of the intake tower main body 200 and the other end is connected to the dam main body 200 100 toward the excavation hole 10.

3, the end of the discharge pipe 20 is inclined and narrowed to fit with one end of the water pipe 80, and a plurality of ball valves 21 are installed on one side of the inclined part.

The order housing 30 is the most important technical component of the present invention and is formed in the shape of a hollow tube having a diameter larger than that of the discharge tube 20 and opening at the other side.

As shown in Figs. 3 and 4, this order housing 30 has a large-diameter tubular body 31 forming a sidewall face and a tubular body 31 welded to one opening of the tubular body 31, And one side ring 33 which is welded along the cross section of the connection hole 32a and a side wall 32 which is welded to the inner wall surface of the tube 31 to reinforce the strength A plurality of inner ribs 34 and an outer ring 35 welded along the other end surface of the tubular body 31 and an outer side wall 35 attached to one side of the outer ring 35 and the other side ring 35 And a rib 36.

Although not shown, concrete is tightly filled in the space between the outer surface of the discharge pipe 20 and the inner surface of the secondary housing 30 through the ball valve 21 installed in the discharge pipe 20, Side wall surface.

The supporting flange 40 is located on the outer circumferential surface of the secondary housing 30 and is welded together with the reinforcing member 41. A plurality of bolt holes Are formed.

As shown in Fig. 5, the packing flange 50 is an independent ring body having an L-shaped cross section, and one pair of the side flanges 32, which are formed with the connection holes 32a of the order housing 30, And is connected to the supporting flange 40 provided on the discharge pipe 20 through the plurality of adjusting bolts B and the nuts N to mutually connect the discharge pipe 20 and the secondary housing 30 And to fix it.

The rubber sealing material 60 is installed to prevent water from penetrating into the secondary housing 30 after the connection between the discharge tube 20 and the secondary housing 30 is completed. As shown in FIG. 5, And is located between the connection hole 32a of the secondary housing 30 and the packing flange 50 to seal the cross-sectional clearance.

The expansive rubber material 70 is attached to the other side ring 35 welded around the other end of the secondary housing 30 through screws as shown in Fig.

This index rubber material 70 is brought into close contact with the wall surface of the upstream side of the dam main body 100 to completely seal the gap between the housing 30 and the dam main body 100, Thereby preventing water from penetrating into the secondary housing 30.

The water pipe 80 is connected to a waterway (not shown) constructed in the downstream of the dam body through the hole 10 of the dam main body 100 while one end of the water pipe 80 is connected to the other end of the discharge pipe 20 do.

The present invention has the technical structure as described above, and the installation method of the present invention will be described as follows.

The first body unit 204 is fixed to the anchor frame 203 to form a lower portion of the intake tower main body 200. In the first body unit 204, The supporting housing 30, the supporting flange 40, the packing flange 50, the rubber sealing material 60 and the exponential rubber material 70 are integrally assembled to the discharge pipe 20 .

At this time, the other end opening of the discharge pipe 20 is closed by welding the clogged flange plate 22, and the expansive rubber material 70 is spaced apart from the upstream wall of the dam main body 100 by about 100 mm The fixing flange 40 and the packing flange 50 are adjusted so that the adjusting bolt B is tightened to the first body unit 204 and assembled.

When each unit constituting the water intake tower main body 200 is completed, the construction units are transported to the water of the installation site using a barge line and a crane wire to assemble the water intake tower main body 200. In the present invention, (203) and the first body unit (204).

The adjustment bolt B which tightens the supporting flange 40 and the packing flange 50 is adjusted so that the expansive rubber material 70 is adhered to the side surface of the dam main body 100 Adhere closely to the upstream wall.

Thereafter, when water is drained into the water-holding housing 30 by opening the ball valve 21, the water-holding housing 30 is brought into an atmospheric pressure state, and the water-based pressure of the reservoir 30 causes the expansive rubber material 70 to contact the concrete wall So as to perform the exponential function.

Next, after the respective units are assembled to install the water intake tower main body 200 and the water intake tower main body 200 is drained, the dam body 100 is excavated The drilling hole 10 is formed and the drain pipe 80 is inserted into the drilling hole 10. [

At the same time, it is checked whether or not the portion where the exposing rubber material 70 is provided and the portion where the rubber sealing material 60 is provided is leaked. At this time, whether or not to leak water is confirmed through the ball valve 21 that is opened before installation, and it is possible to reliably determine whether or not leakage is caused.

When it is confirmed that the index is completely formed, the clogged flange plate 22 covering the other end of the discharge pipe 20 is cut in the circumferential direction, and one end of the water pipe 80 is welded by field welding.

Concrete (not shown) is injected tightly into the internal space of the secondary housing 30 through the ball valve 21 provided at the other end of the discharge pipe 20 so as to be attached to the wall surface of the dam main body 100 Completion of construction.

A further embodiment according to the present invention is characterized in that as shown in Figure 6 there is further provided a sealing means which is capable of further tightly sealing the other end of the secondary housing 30 with the dam body 100, .

To this end, as shown in FIG. 6, the body seal member 300 is provided on the dam main body 100 in a downward position where the expansive rubber material 70 is installed.

The main body sealing member 300 is fitted to the dam body 100 in a state of being recessed to a predetermined depth from the surface of the dam main body 100 and is firmly fixed on the dam main body 100 through the fixing anchor 310.

At this time, the main body sealing material 300 is made of a silicon material, and a plurality of sealing grooves 320 are formed on the front surface of the main body sealing material 300 so as to be spaced along the longitudinal direction.

A fixing plate 400 is vertically fixed to the lower portion of the tube 31 and a rear end of the tightening cylinder 410 is firmly fixed to the front surface of the fixing plate 400.

A tightening rod 420 is connected to the front end of the tightening cylinder 410 so as to protrude and retract and a support bracket 430 is integrally fixed to an end of the tightening rod 420.

In addition, a sealing connection plate 440 is fixed to the support bracket 430, and a sealing plate 450 is fixed to the sealing connection plate 440 in a replaceable manner.

In this case, the sealing plate 450 is also made of a silicone material. The sealing plate 450 has a sealing projection 450 formed on the front surface thereof with a sealing projection 320, which can be inserted into the sealing groove 320, (Not shown).

In addition, the upper end of the sealing connection plate 440 is further formed with a sealing sealing portion 442 which is contactably supported on one end surface of the other side ring 35.

Here, the sealing sealing portion 442 is formed by extending a part of an upper end of the sealing connecting plate 440 so as to protrude upwards. The sealing sealing portion 442 is in the form of an inflated balloon, which is slightly hemispherical, so as to maximize the sealing effect.

The sealing protrusion 452 is engaged with the sealing groove 320 while the sealing plate 450 is closely attached to the body sealing member 300 firmly fixed to the dam main body 100. In this case, The sealing function is maximized because it performs a kind of mechanical seal function while entering.

Further, in the additional embodiment according to the present invention, the sealing plate 450 is always pushed toward the body sealing member 300 with constant pressure by the tightening cylinder 410, thereby maximizing the sealing stability.

Therefore, the problem of leakage around the secondary housing 30 does not occur, and the diver connection structure can be stabilized.

10: drilling hole 20: discharge pipe 21: ball valve
22: flange plate 30: order housing 32: one side plate
32a: Connection hole 33: One-side ring 34: Inner rib
35: other side ring 36: outer rib 40: supporting flange
41: reinforcing piece 50: packing flange 60: rubber sealing material
70: index rubber material 80: water pipe 100: dam body
200: the intake tower main body

Claims (1)

An excavation hole (10) passing through the dam body (100) at a predetermined position in the upstream and downstream direction so as to block and block the water flowing from the upstream side; A discharge pipe (20) having one end connected to the lower part of the water intake tower main body (200) constructed to be assembled in water in the reservoir and the other end extending toward the drilling hole (10); Wherein the other end of the discharge pipe (20) passes through the connection hole (32a) opened to one side plate (32) of the hollow tube and has a larger diameter than the discharge pipe (20) (30); A supporting flange (40) located on the outer side of the secondary housing (30) and fixed to the outer peripheral surface of the other side of the discharge tube (20); A pair of fixing bolts B tightly fixed to the supporting flange 40 through the plurality of adjusting bolts B and the nuts N with one side plate 32 having the connecting hole 32a of the secondary housing 30 formed therebetween, A packing flange (50); A pair of rubber seal members 60 sealing the cross-sectional clearance between the connection hole 32a of the secondary housing 30 and the packing flange 50; An expansive rubber material 70 attached along the other end of the housing 30 and adhered to the wall surface of the dam body 100 at the upstream side; And a water pipe (80) which is connected at one end to the other end of the discharge pipe (20) and extends to the downstream side of the dam through the hole (10) of the dam body (100) In the structure of the water pipe connection device of the water intake tower,
A plurality of ball valves 21 are installed inside the other end of the discharge pipe 20 and the concrete is inserted into the space between the outer surface of the discharge pipe 20 and the inner surface of the order housing 30 through the ball valves 21. [ Tightly packed to the wall surface of the upstream side of the dam main body 100; The body seal member 300 made of a silicone material is provided in the dam body 100 at a lower position where the expansive rubber material 70 is installed, And is fixed on the dam body 100 via the fixing anchor 310; A plurality of sealing grooves 320 are formed on the front surface of the body sealing member 300 so as to be spaced apart from each other along the longitudinal direction; A fixing plate 400 is vertically fixed to a lower portion of the tube 31 of the secondary housing 30; The rear end of the tightening cylinder 410 is fixed to the front surface of the fixing plate 400; A tightening rod 420 is connected to the front end of the tightening cylinder 410 so as to protrude and retract; A 'U' -shaped support bracket 430 is integrally fixed to an end of the contact rod 420; A sealing connection plate 440 is fixed to the support bracket 430; A sealing plate 450 made of a silicone material is interchangeably fixed to the sealing connection plate 440; A sealing protrusion 452 protruding from the front surface of the sealing plate 450 to be inserted into the sealing groove 320 at a position corresponding to the sealing groove 320; And a sealing sealing portion 442 is formed on an upper end of the sealing connection plate 440 to be supported on one end surface of the other side ring 35. [ .

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