KR101589141B1 - Ventilator of water reservoir - Google Patents

Abstract

The present invention relates to a vent which is installed in a ventilation hole in a water reservoir to guide the exhaust of chlorine gas and, more specifically, to a chlorine gas vent for a water reservoir, which improves durability by preventing corrosion caused by hydrochloric acid through the material improvement of an embedded pipe, thereby extending the service life of the embedded pipe. Moreover, the present invention enables installation in a newly established ventilation hole by improving the structure of the embedded pipe and a ventilation pipe, expands the range of use, such as the installation in an existing ventilation hole or the like, and enables convenient maintenance when the vent is worn out.

Description

{VENTILATOR OF WATER RESERVOIR}

The present invention relates to a ventilation hole provided in a ventilation hole of a reservoir to induce the discharge of chlorine gas, and more particularly, to a ventilation hole provided in a reservoir for improving the structure of a ventilation hole for a new ventilation hole And more particularly to a chlorine gas vent for a reservoir to bring about the convenience of maintenance at a later time.

Generally, the ventilating hole of the reservoir is installed in a reservoir temporarily storing the purified water before it is sent to each home and factory.

The ventilation port of the reservoir is connected to the storage tank embedded in the lower part of the ground layer by a connection pipe, and is formed in the shape of "∩".

As described above, since it is formed only in the shape of "? "As described above, it is easy to inflow worms and the like, and harmful substances are easily introduced from the outside. Thus, as registered in the Utility Model Registration No. 20-457169, And a ventilating cap connected to an upper end of the ventilating pipe. The ventilating duct formed between the ventilating duct and the ventilating cap has an insect-proofing net and a noxious substance input preventing net.

However, the conventional drainage vents have a problem in that two networks are stacked to cause flow resistance of the air, thereby failing to achieve smooth ventilation.

In addition, there is a problem that the outside air rising on the outside wall of the vent pipe and the inside air such as chlorine gas discharged through the vent pipe line collide with each other to induce vortex so that the inside air of the reservoir is not ventilated smoothly.

In addition, dew condensation occurs in the process of collision between the outside air rising on the outside wall of the vent pipe and the inside air exhausted through the vent pipe, and the dew condensation water is generated by chlorine gas contained in the inside air and hydrochloric acid So that the components of the ventilation hole of the reservoir are corroded and damaged.

In order to solve the above-mentioned problems, the applicant of the present invention has found that the conventional drainage vents provided with a stack of two networks as shown in Patent Application No. 10-1373868 induce flow resistance of air, There is a problem in that the outside air rising on the outside wall of the vent pipe is collided with the inside air discharged through the vent pipe and causing a vortex so that the inside air of the reservoir is not smoothly ventilated and the condensation due to the temperature difference between the outside air and the inside air The circulation of the water in the reservoir has been proposed to solve the problem that the chlorine gas contained in the water and the hydrochloric acid, which generates strong corrosive force, are generated to corrode and damage the components of the reservoir ventilation.

However, in the conventional ventilation as described above, it is possible to improve the ventilation. However, since the embedding pipe provided in the ventilation hole to be connected to the ventilation hole is made of a PVC material weak in corrosion at the time of producing hydrochloric acid, its durability is remarkably deteriorated, In addition, there is a problem in that the installation of the ventilation pipe is limited only to the newly installed ventilation hole, and in particular, it is not easy to maintain the maintenance of the buried pipe during corrosion and deterioration.

Korean Utility Model Registration No. 20-457169. Korean Patent Registration No. 10-1373868.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to improve the quality of a buried pipe to prevent corrosion by hydrochloric acid and to prolong durability of the buried pipe, The present invention provides a chlorine gas vent for a reservoir.

In addition, the present invention provides a chlorine gas vent for a reservoir for improving the structure of a reclamation pipe and a ventilation pipe to allow installation in a newly installed ventilation hole as well as an existing ventilation hole, It is an object of the invention.

Further, it is an object of the present invention to provide a chlorine gas vent for a drainage port in order to facilitate maintenance and repair of the ventilation port.

As a specific means for achieving the above object, in a ventilation hole for a reservoir,

A buried pipe made of a stainless steel material and having a plurality of bolt holes formed at an upper portion thereof and exposed at an upper portion of the ground;

A plurality of bolt holes are formed in the outer periphery of the coupling pipe, and a plurality of bolt holes are formed in the periphery of the coupling pipe to extend to the upper portion of the step portion, A fixing pipe made of stainless steel and formed as a coupling pipe in which a fixing pipe flange protrudes;

A ventilating pipe flange having a plurality of bolt holes protruding from the lower end thereof, and a ventilating pipe connecting part having a through hole and a bolt hole protruding from the upper end; And

The inner circumferential upper portion of the inner circumferential surface of the inner circumferential surface of the inner circumferential surface of the outer circumferential surface of the inner circumferential surface of the inner circumferential surface of the inner circumferential surface And a ventilation induction cap having an upper portion closed to form a discharge induction slope at an edge thereof, wherein the inner tube and the ventilation induction cap are made of a stainless steel ventilation cap connected to each other through a ventilation cap coupling piece having a through hole and a bolt hole , ≪ / RTI >

The buried pipe is inserted from the lower part of the ventilation hole to expose the upper end. The fixed pipe surrounds the upper end of the buried pipe through the pipe and the bolt and nut are fastened through the bolt hole of the lower bolt hole and the buried pipe. The bolt and nut are fastened through the bolt hole of the fixing pipe flange at the upper end of the bolt hole and the fixing pipe and the ventilation cap is fastened to the bolt and nut through the bolt hole of the ventilation pipe coupling part of the ventilation pipe and the ventilation pipe coupling part of the ventilation cap.

As described above, the chlorine gas vent for the reservoir of the present invention is made of a stainless steel material which is resistant to corrosion due to hydrochloric acid as a whole in the ventilation hole including the buried pipe, and corrosion due to hydrochloric acid is prevented, and durability thereof is remarkably improved. It is possible to obtain an effect that the life of the battery is remarkably prolonged.

In addition, since the installation structure of the buried pipe is improved by the insertion-and-removal structure, it is possible to install the existing ventilation hole in addition to the newly installed ventilation hole, will be.

In addition, since the buried pipe, the fixed pipe, the vent pipe, and the ventilation cap are separated and assembled, it is possible to obtain a simple maintenance effect in the case of deteriorating any one part.

1 is an exploded perspective view of a chlorine gas vent for a reservoir of the present invention.
FIG. 2 is a perspective view of a chlorine gas vent for a reservoir according to the present invention. FIG.
3 is a sectional view of a chlorine gas vent for the reservoir of the present invention.
FIG. 4 is a view showing the installation state of the chlorine gas vent for the reservoir of the present invention. FIG.
5 is a view showing a conventional ventilation hole installation of a chlorine gas vent for a reservoir of the present invention.
6 is a view showing an embedding pipe sealing structure of a chlorine gas vent for a reservoir of the present invention.
FIG. 7 is an embodiment showing the relationship between the buried pipe and the fixing pipe of the chlorine gas vent for the reservoir of the present invention. FIG.
8 is a view showing an embodiment of a buried pipe tension holding structure of a chlorine gas vent for a reservoir of the present invention.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an embodiment showing a buried pipe of a chlorine gas vent for a reservoir of the present invention. FIG.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 1 is an exploded perspective view of a chlorine gas vent for a reservoir according to the present invention, FIG. 2 is an assembled perspective view of a chlorine gas vent for a reservoir of the present invention, and FIG. 3 is an installation sectional view of a chlorine gas vent for a reservoir of the present invention.

1 to 3, the chlorine gas vent 1 for a reservoir of the present invention comprises a buried pipe 100, a fixing pipe 200, a vent pipe 300, and a ventilation cap 400.

Here, the buried pipe 100 is configured in the form of a stainless steel pipe having a length longer than a depth of a ventilation hole (not shown in the figure) of the drainage pipe, and is configured to discharge the chlorine gas of the drainage pipe to the outside.

At this time, a hook 110 protrudes around the lower end of the buried pipe 100 so as to be hooked around the lower end of the ventilation hole.

In addition, a plurality of bolt holes 122 are formed in the upper portion of the buried pipe 100 at a height exposed from the ground.

The buried pipe 100 is coupled to the ventilation hole of the drainage compartment 10 so as to be inserted from the lower portion of the ventilation hole and is hooked around the lower end of the ventilation hole by the lower end stopping hook 110 It is prevented from being separated to the upper portion.

6, the upper portion of the latching jaw 110 may further include a packing 610 which is in close contact with the periphery of the ventilation hole to provide a sealing force.

7, a plurality of hooking guide holes 140 are formed in the upper portion of the buried pipe 100 so as to penetrate the hooking guide hole 140, And the resilient piece 150 is provided so as to be projected and given an elastic force by an external force.

At this time, a wedge-shaped latching protrusion 151 protruding outwardly of the buried pipe 100 through the latching guide hole 140 and having a slope whose outer side widens downward is provided on each elastic piece 150 .

The fixed pipe 200 is coupled to the upper portion of the buried pipe 100 to fix the buried pipe 100 to the ventilation hole and serves as a connecting medium of the vent pipe 300 and is formed of a stainless steel pipe.

The fixing pipe 200 is formed in the form of a multistage pipe that forms a lower end coupling pipe 210 and an upper coupling pipe 220. First, And a plurality of bolt holes 212 for coupling with the buried pipe 100 are formed on the outer circumference of the intermediate portion.

The coupling pipe 220 is extended to the upper portion of the coupling pipe 210. A step 230 protruding outward is formed at an upper end of the coupling pipe 210, And a fixing pipe flange 231 having a plurality of bolt holes 232 is formed to protrude outward from the upper end thereof.

6, a packing 620, which is interposed between the lower surface of the coupling pipe 210 and the ground surface, may be further formed below the supporting surface 211 of the coupling pipe 210. As shown in FIG.

As shown in FIG. 8, the fixing pipe flange 231 may further include a tension holding spring 700 for supporting the bottom surface of the fixing pipe flange 231 and the ground.

The ventilation pipe 300 is connected to the upper portion of the fixing pipe 200 to guide the chlorine gas upward, and is configured in the form of a stainless steel pipe.

A plurality of bolt holes 312 are formed around the lower end of the ventilation pipe 300 so that a ventilation pipe flange 310 for fitting to the fixing pipe flange 231 of the fixing pipe 200 protrudes outward .

The ventilation pipe 300 has a vent pipe coupling piece 320 having a plurality of through holes 321 and a bolt hole 322 protruding outward from the upper end thereof.

The ventilation cap 400 is coupled to an upper portion of the ventilation pipe 300 to discharge the chlorine gas introduced upward to the outside, and is made of stainless steel.

The ventilation cap 400 includes the inner pipe 410 and the ventilation induction cap 430. The inner pipe 410 is extended with the vent pipe 300 to induce chlorine gas.

In addition, the ventilation induction cap 430 is configured to enclose the inner tube 410 with the upper portion closed to have a diameter that is spaced to the outside of the inner tube 410, And a plurality of return induction braids 431 are formed at the inner upper portion so as to induce the chlorine gas induced in the inner portion to return to the outside, A discharge inducing slope portion 432 is formed.

At this time, the inner pipe 410 and the ventilation induction cap 430 are connected to each other. The connection is made between the lower end of the inner pipe 410 and the lower portion of the ventilation induction cap 430 (a predetermined height from the lower end) And a vent hole 441 communicating with the through hole 321 formed in the vent pipe coupling piece 320 of the vent pipe 300 and a plurality of bolts 441 communicating with the through hole 321 formed in the vent pipe coupling piece 320 of the vent pipe 300, A hole 442 is formed.

The filter net 500 may further include a filter net 500 having a diameter of the vent pipe coupling piece 320 between the vent pipe coupling piece 320 and the ventilation cap coupling piece 440.

A plurality of activated carbon capture nets 510 are installed in the lower portion of the filter net 500 so as to be filled with a plurality of activated carbon 511. The activated carbon capture nets 510 are inserted do.

9, a water-repellent coating layer 160 coated with a water-repellent agent may be further formed on the inner circumferential surface of the water-repellent agent 100. In this case, Water-repellent agent such as a general fluorine-based or silicone-based agent can be used.

And a water repellent coating layer (160) coated on the inner peripheral surface of the buried pipe (100) using a water repellent agent.

Hereinafter, the operation of the chlorine gas vent for the reservoir of the present invention having the above-described structure will be described in detail with reference to the accompanying drawings.

The chlorine gas vent 1 for the reservoir of the present invention has a structure in which the buried pipe 100, the fixed pipe 200, the vent pipe 300 and the ventilation cap 400 are separated from each other, It can be installed by each assembly.

Referring to FIGS. 1 to 3, the installation relationship of the ventilator 1 will be described.

The buried pipe 100 is installed in the ventilation hole 20 of the reservoir 10 so that the buried pipe 100 is inserted from the lower portion of the ventilation hole 20 so that the upper end thereof is exposed to the upper surface of the ground, And the lower jaw 110

At this time, when the buried pipe 100 is installed in the ventilation hole 20, as shown in FIG. 5, the ventilation hole 20 without the conventional buried pipe or the ventilation hole 20 of the newly installed reservoir can be directly inserted 5, when the existing PVC re-buried pipe 30 is installed in the ventilation hole 20 of the existing reservoir 10, the existing buried pipe 30 is removed without removing the existing buried pipe 30, The buried pipe 100 of the present invention may be inserted into the inside of the pipe 30.

6, when the buried pipe 100 is hooked on the lower periphery of the ventilation hole 20 through the coupling protrusion 110, the coupling protrusion 110 and the periphery of the ventilation hole 20 A sealing force is applied to the clearance between the buried pipe 100 and the lower portion of the ventilation hole 20 to prevent foreign matter from being introduced.

The fixed pipe 200 is connected to the upper end of the buried pipe 100 as described above to serve as a coupling medium with the fixed and ventilating pipe 300. The fixed pipe 200 has a lower It is possible through the coupling pipe 210.

That is, the fixed pipe 200 is connected to the upper bolt hole 122 of the buried pipe 100 and the bolt hole 212 of the coupling pipe 210 while the upper end of the buried pipe 100 is inserted through the coupling pipe 210 And the bolts B and the nuts N are fastened and coupled through the fastening pipe 210 and the fastening pipe 200. The coupling between the buried pipe 100 and the fixing pipe 200 is performed, Is supported on the upper surface of the ventilation hole 20 so that the buried pipe 100 is prevented from falling downward.

6, a packing 620 may be further formed between the supporting protrusion 211 of the coupling tube 210 and the periphery of the ventilation hole 20 in the process of coupling the fixing tube 200 A sealing force is applied to the gap between the fixing pipe 200 and the ventilation hole 20 to prevent foreign matter from being introduced.

7, when the buried pipe 100 and the fixed pipe 200 are coupled, the buried pipe 100, to which the fixing force is not applied, Lt; / RTI >

That is, in the process of wrapping the upper end of the buried pipe 100 with the coupling pipe 210, the elastic piece 150 formed on the trapping inducing hole 140 at the upper part of the buried pipe 100 is compressed and passes through the pipe 210 The bolts B and the nuts N are fastened and fixed for the main assembly as described above after being fastened to the stepped portions 220 of the fixing pipe 200 and given the fixing force of the buried pipe 100 by the co- .

In detail, in the process of inserting the buried pipe 100 into the coupling tube 210, the elastic piece 150 is formed such that the outer side of the wedge-shaped locking protrusion 151 on the upper side thereof is inclined, The elastic member 151 is folded naturally into the interior of the coupling tube 210 by the resilience of the elastic member 150 so that it does not suffer from the entry of the interior of the embedded tube 100, The resilient force of the resilient piece 150 is restored and opened at the time of escaping from the top, and at the same time, the resilient protrusion 151 protrudes outward of the resilient guiding hole 140 and is hooked on the tab 220.

8, the tension retaining spring 700 can be further installed in the process of coupling the retaining pipe 200. The tension retaining spring 700 is installed on the upper end of the coupling pipe 220 of the retaining pipe 200, It is preferable that the air is blown between the fixed pipe flange 231 formed and the ground surface around the vent hole 20.

That is, when the ventilation hole 1 is used for a long period of time or when the ventilation hole 1 is used during the summer, the tension metal spring 100 is inflated and expanded, And the force of the buried pipe 100 may be generated. At this time, the tension retention spring 700 imparts a downward elastic force to the fixed pipe 200 and the ground, The tension of the buried pipe 100 is maintained.

Then, the vent pipe 300 is coupled to the upper portion of the fixed pipe 200, and the vent pipe 300 is coupled through the lower vent pipe flange 310.

That is, the ventilation pipe 300 is formed by inserting the ventilation pipe flange 310 formed at the lower end thereof into the bolt hole 232 (312) while inserting the vent pipe flange 310 formed at the lower end thereof into the fixing pipe flange 231 formed at the upper end of the coupling pipe 220 of the fixing pipe 200, (B) and the nut (N).

Thereafter, a ventilation cap 400 for guiding ventilation of chlorine gas is coupled to the upper portion of the ventilation pipe 300, and the ventilation cap 400 is coupled to the ventilation cap coupling member 440.

That is, the ventilation cap 400 may be coupled through the ventilation cap coupling piece 440 formed at the lower part and the ventilation pipe coupling part 320 formed at the upper end of the ventilation pipe 300.

At this time, a bolt hole 322 formed in the ventilation pipe coupling piece 320 and the ventilation cap coupling piece 440 is inserted between the ventilation pipe coupling piece 320 and the ventilation cap coupling piece 440, The passage of the ventilation pipe 300 and the ventilation cap 400 is closed with the filter net 500 and the ventilation pipe coupling piece 320 And the through holes 321 and 441 formed in the ventilation cap coupling member 440 are communicated with each other through the filter net 500.

The activated carbon capture net 510 filled with the activated carbon 511 formed at the lower part of the filter net 500 is accommodated in the ventilation pipe 300.

As described above, the chlorine gas vent for the reservoir of the present invention is constructed such that the buried pipe 100, the fixed pipe 200, the vent pipe 300 and the ventilation cap 400 are separated and assembled from each other, It is simple and easy to maintain and repair the part when it is damaged or worn out, and it is especially convenient to install the newly installed reservoir as well as to replace the existing reservoir The use becomes very easy.

In the ventilation hole 1 according to the present invention, the chlorine gas is guided to the upper portion through the buried pipe 100, and the chlorine gas is guided and discharged from the upper portion through the buried pipe 100, the fixed pipe 200, 300 to be discharged upward.

At this time, the chlorine gas is flowed outwardly by the flow induction braid 431 of the ventilation cap 400 and flows through the inner pipe 410 and the ventilation cap 400, And is guided to the vent pipe 420 between the induction caps 430.

In addition, the ventilation induction cap 430 has the discharge inducing slope portion 432 formed therein. The chlorine gas is naturally introduced into the ventilation duct 420 through the discharge induction slope portion 432, And the vent holes 321 and 441 of the ventilation cap coupling piece 440 are discharged to the outside.

The passage of the ventilation pipe 300 and the ventilation cap 400 and the ventilation pipe 420 are closed with a filter net 500 in the form of a perforated plate and the chlorine gas can be smoothly discharged through the filter net 500 The foreign matter introduced into the outer rotor is primarily filtered at the vent holes 321 and 441 at the vent pipe 420 and is filtered at the passages of the ventilation pipe 300 and the ventilation cap 400, So that the inflow of the gas into the furnace is completely blocked.

A plurality of activated carbon 511 is filled in the activated carbon trapping net 510 formed in the lower portion of the filter net 500 and accommodated in the ventilation pipe 300, Which is then purified through the activated carbon 511.

9, when the water repellent coating layer 160 is formed on the inner circumferential surface of the buried pipe 100, moisture generated in the reservoir 100 flows down without being formed on the inner circumferential surface of the buried pipe 100, It is possible to reliably prevent corrosion of the buried pipe 100 which is most likely to be exposed to moisture when the ventilation hole 1 is installed.

As described above, in the chlorine gas vent for the reservoir of the present invention, when the chlorine gas introduced through the buried pipe reaches the ventilating cap, it can be guided in the venting direction to be stably discharged.

100: buried pipe 110:
122: Bolt hole 140: Joint guide shaft
150: Elastic piece 151:
160: Water repellent coating layer
200: fixing pipe 210: coupling pipe
211: support ridge 212: bolt hole
220: step 230:
231: Fixing tube flange 232: Bolt hole
300: vent pipe 310: vent pipe flange
312: bolt hole 320: vent pipe coupling piece
321: Through hole 322: Bolt hole
400: Ventilation cap 410: Inner pipe
420: Ventilation duct 430: Ventilation induction cap
431: reflux induction braid 432: discharge inducing slope part
440: ventilation cap coupling piece 441: through hole
442: bolt hole 500: filter mesh
510: activated carbon capture net 511: activated carbon
610, 610 ': packing 700: tension retaining spring

Claims (6)

In the ventilation hole for the reservoir,
A buried pipe (100) formed of a stainless material and having a plurality of bolt holes (122) protruding from an upper portion thereof and exposed to an upper portion of the ground;
And a plurality of bolt holes 212 formed on an outer circumference of the coupling pipe 210. The outer circumferential surface of the coupling pipe 210 is extended by an outer protruding step portion 220, A fixing pipe 200 formed of stainless steel and extending to an upper portion of the upper portion 220 and having a fixing pipe flange 231 having a plurality of bolt holes 232 protruding therefrom;
A vent pipe flange 310 having a plurality of bolt holes 312 is formed around the lower end and a vent pipe coupling piece 320 having a through hole 321 and a bolt hole 322 is protruded around the upper end, (300); And
The upper portion of the inner pipe 410 is surrounded by the upper end of the ventilation pipe 300 and the outer pipe 410 to surround the inner pipe 410 so as to form the vent pipe 420. On the other hand, And a ventilation induction cap 430 with an upper portion closed to form a flow induction braid 431 having an angle of inclination to induce the flow of air to the outside and a discharge inducing slope portion 432 at an edge thereof. The ventilation induction cap 430 includes a ventilation cap 400 made of stainless steel and connected to the ventilation induction cap 430 through a ventilation cap coupling piece 440 having a through hole 441 and a bolt hole 442,
The buried pipe 100 is inserted from the lower portion of the ventilation hole to expose the upper end thereof and the fixed pipe 200 surrounds the upper end of the buried pipe 100 through the coupling pipe 210 while the lower bolt hole 212, The vent pipe 300 is fastened to the bolt hole 312 of the vent pipe flange 310 and the fixing pipe flange 231 at the upper end of the fixing pipe 200. The bolt B and the nut N are fastened through the bolt hole 122 of the fixing pipe 200, And the ventilation cap 400 is connected to the vent hole 442 of the ventilation cap coupling member 440 and the ventilation pipe coupling piece 241 of the ventilation pipe 300 by the bolts B and N, The bolts B and the nuts N are fastened through the bolt holes 322 of the bolts 320,
A plurality of hooking guide holes 140 are formed in the upper part of the buried pipe 100 so as to communicate with the inside of the hooking guide pipe 100. Each hooking guide hole 140 is formed with an elastic piece 150, And a protruding protrusion 151 protruding outward from the protruding protrusion 151,
The engaging projection 151 of the resilient piece 150 is resiliently engaged with the step 220 of the fixing pipe 200 when the buried pipe 100 and the fixing pipe 200 of the fixing pipe 200 are coupled, ) And the nut (N) are fastened to each other.
The method according to claim 1,
And a filter net 500 having a diameter equal to the diameter of the vent pipe coupling member 320. The lower portion of the filter net 500 includes an activated carbon trap 530 inserted into the vent pipe 300 and filled with the activated carbon 511 for purification, And a network 510,
The filter net 500 intervenes between the ventilation pipe coupling part 320 and the ventilation cap coupling part 440 in the course of coupling the ventilation pipe 300 and the ventilation cap 400, , And the first and second electrodes
Wherein the filter net (500) is configured to close the vent holes (321) and (441) of the ventilation pipe (300), the vent pipe coupling piece (320), and the ventilation cap coupling piece (440).
The method according to claim 1,
620 and 620 at the upper portion of the stopper 110 of the buried pipe 100 and the lower portion of the support pipe 211 of the fixing pipe 200,
The sealing force of the stopper 110 and the lower portion of the ventilation hole of the drainage compartment and the sealing force of the upper portion of the supporting block 211 and the upper portion of the ventilation hole are provided through the packing 610 and 620 to prevent foreign matter from being introduced. Chlorine gas vent for.
The method according to claim 1,
Wherein a tension retaining spring (700) is further installed between the ground of the reservoir and the fixed pipe flange (231) of the fixed pipe (200).
5. The method of claim 4,
Wherein the tension force of the permanent buried pipe (100) is maintained by the tension retaining spring (700) to have a strong supporting force.
The method according to claim 1,
And a water repellent coating layer (160) coated on the inner peripheral surface of the buried pipe (100) using a water repellent agent.

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