KR101815447B1 - Self supporting air duct for wet land facilities - Google Patents

Abstract

The present invention relates to a self-supporting air duct which is laid in a filling treatment tank of a granular body (99) in an artificial wetland, and in which a support (60) having a lower end portion penetrated into the ground and a support frame (70) formed at an upper portion thereof is installed inside a unit tube (10) and a vertical vent pipe (91) of the vent pipe to prevent the vertical vent pipe (91) from being reversed. According to the present invention, it is possible to stably support the unit tube (10) and the vertical vent pipe (91) constituting the filling treatment tank laid-air duct pipe of the granular body (99), and especially, the reversion of the vertical air duct pipe (91) can be effectively inhibited throughout all processes in laying construction of the air duct pipe (99) to improve the structural stability and ease of installation of the air duct pipe (99).

Description

[0001] SELF SUPPORTING AIR DUCT FOR WET LAND FACILITIES [0002]

The present invention relates to a vent pipe embedded in a filling treatment tank of a granular body (99) in an artificial wetland, wherein a support rod (60) having a lower end portion penetrated into the ground and a support portion (70) And is installed inside the tube body 10 and the vertical ventilation pipe 91 to prevent the vertical ventilation pipe 91 from conducting.

In the treatment tank in which the granular body 99 is filled in the artificial wetland as a natural type water treatment facility, the basic physical treatment in which the water of the treatment liquid passes through the voids of the granular body 99 while the contaminants are filtered and adsorbed, (Interglacial contact oxidation), and so on.

The granular material 99 in the granular material treatment tank 99 includes a functional granule 99 such as activated carbon or zeolite in which a microporous structure is formed as well as general materials such as gravel, gravel and crushed stone, A ceramic or synthetic resin granular material 99 which is imparted with a function or improved in tangibility can be applied and a granular material 99 filled in the treatment tank for maximizing the catalytic oxidation effect or activating aerobic microorganisms can be applied, A vent pipe for artificially ejecting air can be buried. As a related art related to such a buried vent pipe, Patent No. 1394127 can be mentioned.

1, a plurality of unit tubes 10 having a plurality of ventilation holes 21 formed therein are continuously joined to form a buried ventilation pipe, and a unit tube (not shown) The vertical vent pipe 91 is connected to the upper branch pipe 24 and the upper inlet port is exposed to the ground so that the upper vent pipe 24 is connected to the upper vent pipe 24 through the vertical vent pipe 91 The air introduced from the outside of the vessel is distributed into each unit body 10 and then ejected into the granules 99 through the air holes 21. [

Air inflow into the unit tube 10 via the vertical ventilation pipe 91 may be performed by the natural air flow due to the ground air velocity or by the temperature difference between the inside of the treatment tank and the ground or by connecting a separate pipe to the vent pipe, It is also possible to connect the air pressurizing means such as an air blower to perform artificial ventilation.

As shown in Figs. 1 and 2, the unit tube 10 constituting the conventional purifier-filled purge air vent tube 99 includes a curved upper plate 20 on which a plurality of air holes 21 are perforated, The flat plate 30 is joined to form a semicircular cross section. As in the enlarged portion in the ellipse of FIG. 1, the longitudinal section of the curved plate 20 is formed to have a waveform curve so as to maximize the geometric rigidity .

As shown in FIG. 2, the upper bending plate 20 and the lower flat plate 30 constituting the unit tube 10 are joined by the coupling between the coupling holes 23 and the coupling protrusions 40, A plurality of engaging holes 23 are drilled in the fastening plate 22 and a curved plate 20 and a flat plate 30 are formed at both sides of the flat plate 30. The fastening plate 22, The coupling protrusion 40 having the same sectional shape as that of the coupling hole 23 is formed at the position of the coupling hole 23 when the coupling protrusion 40 is coupled to the coupling hole 23, The outer surface of the flat plate 30 and the curved plate 20 are in close contact with each other.

2, the plurality of unit tubes 10 and the vertical vent pipes 91 are assembled in a state in which they are assembled as shown in FIG. 1 before the plurality of unit tubes 10 are assembled in a state as shown in FIG. The unit body 10 and the vertical vent pipe 91 are buried in the treatment vessel after the granules 99 are installed in the treatment vessel. When the unit tube 10 and the vertical vent pipe 91 are completely buried in the treatment tank There is no configuration that can support the position and posture of the vertical ventilation pipe 91 coupled to the upper end of the curved plate 20 of the unit tube 10 so that the problem of the conduction of the vertical ventilation pipe 91, Respectively.

Particularly, as shown in FIG. 3, the vertical ventilation pipe 91 is hardly inclined or turned in the lateral direction of the cross section of the unit tube 10 even during a small impact generated during the installation, ), As well as severely deteriorating the function of the vent pipe such as the separation of the connecting portion between the unit tubes 10 and the breakage of the vent pipe.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and has an object of providing an air conditioner having an upper curved plate (20) having a lower end of a vertical ventilation pipe (91) A plurality of unit tubes 10 each having a semicircular cross section joined thereto are buried in a filling treatment tank of a granular body 99. The pressurizing holes 31 are formed at the center of the flat plate 30, And a support rod 60 is installed which is concentric with the vertical ventilation pipe 91 in a plan view and whose lower end passes through the press-in hole 31 and penetrates into the lower ground of the unit tube 10 And a disk supporting base 70 having a diameter corresponding to an inner diameter of the vertical vent pipe 91 and having an opening 71 formed therein is mounted on the upper end of the support rod 60. The vertical vent pipe 91 is connected to the support base 70, (60). The airtight pipe for an artificial wetland according to claim 1,

A seating projection 35 protruding upward is formed in the periphery of the press-in hole 31 of the flat plate 30, an inductive coupling portion 36 formed in a conical shape is formed in the center of the seating projection 35, A seating plate 66 having a shape conforming to the inductive coupling portion 36 is formed at the lower portion of the supporting rod 60 so that the seating plate 66 is tightly fitted to the inductive coupling portion 36 when the seating plate 66 penetrates into the ground of the supporting rod 60 And is connected to the water supply pipe.

An extension plate 67 is provided on the bottom surface of the flat plate 30 and a coupling pipe 68 protruding upward is formed at the center of the expansion plate 67 so that the coupling pipe 68 is inserted into the insertion hole 31 Is upwardly exposed to the upper side of the flat plate (30), and the lower end of the support rod (60) is tightly coupled to the coupling pipe (68).

It is possible to stably support the unit tube 10 and the vertical ventilation pipe 91 constituting the filling treatment buried vent pipe of the granular body 99 through the present invention and particularly to the vertical ventilation pipe 91 ) Can be effectively suppressed, and the structural stability and ease of installation of the vent pipe can be improved.

Particularly, in the process of disposing the unit tubes 10 and the vertical vent tubes 91 and the process of installing the granules 99, not only the standing state of the vertical vent tubes 91 can be stably maintained, but also the position of the unit tubes 10 It is possible to drastically improve the stability and accuracy of the entire vent pipe structure and fundamentally solve the problem of conduction of the vertical vent pipe 91 and breakage of the unit pipe 10 during the construction, And the operation performance of the artificial wetland applied to the vent pipe can be remarkably improved.

1 is a cross-sectional view showing a cross-section of a filling body for filling a body with a vent pipe embedded therein;
2 is a perspective view
3 is a schematic cross-sectional view
4 is a perspective view of a unit tube perspective view of the present invention
5 is an exploded perspective view of a unit body of the present invention
FIG. 6 is a perspective view of a supporting rod and a support half cut-
7 is a representative cross-sectional view of a state prior to the vent pipe insertion according to the present invention
8 is an exploded perspective view of an example of a seat cushion of the present invention,
9 is an exploded perspective view of an example of a seat portion and a seating portion of the present invention,
10 is a partial cutaway exploded perspective view of an embodiment of the present invention,
11 is a representative cross-sectional view of the state before the vent pipe insertion in Fig. 10

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A detailed configuration of the present invention will be described with reference to the accompanying drawings.

4 and 5 are a perspective view and an exploded perspective view of a unit tube 10 and a vertical vent pipe 91 according to the present invention. As shown in the drawing, the lower end of a vertical vent pipe 91 having an upper end exposed on the ground is connected A plurality of unit tubes 10 each having a semicircular cross section to which a plurality of vent holes 21 are perforated and an upper plate 20 joined to the lower plate 30 are connected to each other to form a granular body of the wetland, A vertical vent pipe 91 connected to an upper end of the curved plate 20 of the unit tube 10 by a support rod 60 whose lower end is firmly penetrated into the lower ground of the unit tube 10, ) Are supported.

The upper end of the vertical ventilation pipe 91 is exposed on the ground when the treatment tank according to the present invention is completed. The STS perforation cap 92 is provided as shown in FIG. 4, and the opening of the upper end inflow portion of the vertical ventilation pipe 91, Can be adjusted.

5, a press-in hole 31 is formed at the center of the flat plate 30, the press-in hole 31 is concentric with the vertical vent pipe 91 in a plan view, and the lower end is press- The diameter of the support rod 60 is equal to the inner diameter of the vertical vent pipe 91 and the diameter of the support pipe 60 is larger than the diameter of the opening The vertical vent pipe 91 is firmly fixed to the lower ground by the support bar 70 and the support bar 60 as shown in Fig.

Pressing of the support rod 60 in the ground is performed by assembling the curved plate 20 and the flat plate 30 to form the unit tube 10 and then pressing the upper end of the upper center portion 20 of the curved plate 20, The support bar 60 is inserted into the bottom of the unit tube 10 such that the tip of the support bar 60 passing through the press-in hole 31 penetrates into the bottom of the unit tube 10 The vertical vent pipe 91 is connected to the support bar 70 at the upper end of the support bar 60 exposed above the upper branch pipe 24 and the lower end of the vertical vent pipe 91 is connected to the upper branch pipe 24 Or the supporting bar 60 is inserted into the vertical vent pipe 91 in a state where both the unit tube 10 and the vertical vent pipe 91 are assembled and arranged so that the tip of the supporting bar 60 is inserted into the press- (31) so as to be penetrated into the ground.

In the process of installing the support bar 60, the outer peripheral surface of the support bar 70 at the upper end of the support bar 60 and sliding contact with the inner peripheral surface of the vertical vent pipe 91 are accompanied by sliding. Similarly, a curved wall 72 having a gently curved surface is formed on the outer periphery of the supporting plate 70.

In the embodiment shown in Fig. 6, the curved wall 72 is configured such that the curved surface faces upward, and the supporting bar 60 passes through the press-in hole 31 and is fixed to the ground, The vertical tube 91 and the vertical tube 91 are assembled in a state where both the unit tube 10 and the vertical tube 91 are assembled. The curved surface of the curved wall 72 of the supporting plate 70 faces downward.

6, the curved surface of the curved wall 72 of the supporting plate 70 can be adjusted in accordance with the direction in which the supporting plate 70 and the supporting rod 60 are coupled, And can be freely attached to and detached from the upper end of the curved wall (60) through a bolt or the like.

7, the posture and position of the vertical vent pipe 91 joined to the upper end of the bending plate 20 can be firmly fixed by the support bar 60 and the support bar 70, 10) itself can also be stably maintained.

Particularly, the support rod 60 of the present invention can be withdrawn and recovered from the ground and reused after the unit tubular body 10 and the vertical vent pipe 91 are completely buried by completing the installation of the granules 99 in the treatment tank , And economic efficiency can be secured.

In other words, the hardness or conduction phenomenon of the vertical vent pipe 91 is mainly caused by the impact applied in the process of installing the granules 99 in the treatment tank after the assembly of the unit tube 10 and the vertical vent pipe 91, The posture of the vertical vent pipe 91 can be maintained even if the support bar 60 is removed in a state where the tubular body 10 and the vertical vent pipe 91 are completely buried. Thereby reducing construction costs.

Of course, the support bar 60 and the support bar 70 may be positioned after the unit tube 10 and the vertical vent pipe 91 are completely embedded. In this case, the air flow may smoothly pass through the support bar 70 6, it is preferable to form the opening 71 of the large diameter by incision.

8 and 9 show a state in which the support rod 60 is pressed in the right direction and tightly bonded between the support rod 60 and the flat plate 30, A support bar 60 is formed at the central portion of the seating protrusion 35 to form an inductive coupling portion 36 recessed in a conical shape and a seating bar 66 whose lower shape matches the induction coupling portion 36, Thereby stably guiding the pressurization of the support bar 60 and enabling the flat plate 30 and the unit tube 10 to be firmly fixed.

That is, when the support rod 60 is press-fitted into the ground, the tip of the support rod 60 can be accurately and stably guided by the press-in hole 31 by the inductive coupling portion 36 which is the conical recessed portion. When the front end portion is completely penetrated into the lower ground of the unit tube 10, the seating unit 66 is tightly coupled to the induction coupling unit 36, and the unit tube 10 including the flat plate 30 is firmly fixed to the lower ground As well as unnecessary rocking and hardness of the support rod 60 are also suppressed.

As described above, the vent pipe of the present invention is installed in the treatment tank filled with the granular body 99, and a sheet material 97 such as a scraping film may be installed in the lower part. In this case, If the sheet material 97 penetrates excessively into the submerged granular material 99 or the lower ground, the function of the sheet material 97, such as the ordering effect, may be deteriorated.

10 and 11 so that the support rod 60 can be stably and firmly self-supported without the lower end of the support rod 60 passing through the flat plate 30 and penetrating into the lower ground. Lt; / RTI >

10, an expansion plate 67 is provided on the bottom surface of the flat plate 30, and a coupling pipe 68 protruding upward is formed in the center of the expansion plate 67, and the coupling pipe 68 is press- And the lower end of the support rod 60 is tightly coupled to the coupling pipe 68. This allows the lower tubular member 97 It is possible to stably mount the support rod 60 without damaging the support rod 60.

10: Unit tube
20: Curved plate
21: Ventilation holes
22:
23: Combination ball
24: Upper branch
30: Reputation
31: press-in ball
35:
36:
40:
60: support rod
66: seat base
67: Extension
68: Coupling tube
70: Supporting board
71: opening
72: curved wall
91: vertical vent pipe
92: STS pier cap
97: sheet material
99:

Claims (3)

A unit tube body 10 having a semicircular cross section in which a lower end flat plate 30 is joined to an upper side bending plate 20 having a lower end of a vertical ventilation pipe 91, A pressurizing hole (31) is formed at the center of the flat plate (30), and the pressurizing hole (31) is formed in the vertical direction of the vertical plane (30) A supporting rod 60 concentric with the ventilating pipe 91 and having a lower end penetrated through the press-in hole 31 and penetrating into the lower ground of the unit tube 10 is provided. In the upper end of the supporting rod 60, And the vertical vent pipe 91 is fixed by the support bar 70 and the support bar 60 to the free standing ventilation pipe for the wet synthetic paper As a result,
An expansion plate 67 is provided on the bottom surface of the flat plate 30 and a coupling pipe 68 protruding upward is formed at the center of the expansion plate 67 so that the coupling pipe 68 press- And is exposed above the flat plate 30;
Wherein the lower end of the support rod (60) is tightly coupled to the coupling tube (68). delete delete

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