KR101915563B1 - Stripping tower system - Google Patents

Abstract

According to the present invention, disclosed is a diffusing tower system connected to a transfer line through which gas is transferred and emitting gas to the air, comprising: a diffusing tower main body formed in a telescopic structure to have a vertically stretchable length and connected to the transfer line, and emitting the gas in an extended state while rising up by an external force or being stored under the ground in a shortened state while lowering down; a towing portion towing the diffusing tower main body by shortening the length by the pressure of the transfer gas branched from the transfer line and shortening the length of the diffusing tower main body; a gas branch portion branching the gas of the transfer line to supply to the towing portion; and a base portion installed under the ground and providing installation spaces of the diffusing tower main body and the towing portion.

Description

STRANPING TOWER SYSTEM

BACKGROUND OF THE INVENTION 1. Field of the Invention The presently disclosed embodiments relate to a dissemination tower system, and more particularly, to a dissemination system that is connected to a transfer line through which gas is transferred to release the residual gas of the transfer line into the atmosphere.

Generally, the arsenal is installed in the gas base station and is connected to the gas transfer line to perform the function of discharging the gas of the transfer line to the atmosphere if necessary.

This tower is used to discharge residual gas to the gas transfer line during maintenance of the gas transfer line.

In addition, the tower is used to regulate the internal pressure by releasing gas in the transfer line when the internal pressure of the gas transfer line exceeds the set pressure.

As described in Korean Patent No. 10-1562601, such a tower is vertically installed on the ground, so that even when the gas is not dissipated, it is exposed to the external environment.

Accordingly, in recent years, a technology has been developed that uses a telescopic structure of the tower to raise the gas only when it is discharged.

However, the above-mentioned prior art has a limitation in that a hydraulic pump for providing a hydraulic pressure must be additionally provided to raise the telescopic structure.

Therefore, a technique for solving the above-described problems is required.

On the other hand, the background art described above is technical information acquired by the inventor for the derivation of the present invention or obtained in the derivation process of the present invention, and can not necessarily be a known technology disclosed to the general public before the application of the present invention .

Embodiments disclosed herein are aimed at providing a system that can simplify a separate configuration, such as a hydraulic pump, by lifting the tower through the pressure of the gas discharged to the tower.

It is also an object of the embodiments disclosed in this specification to propose a dissipative tower system capable of dissipating gas by supplying gas raised to a dissipation tower to a dissipation tower when descending by self weight of the dissipation tower.

In addition, the embodiments disclosed herein are intended to provide a defense tower system having a base structure capable of housing a defense tower in the ground when the defense tower is not used, and capable of firmly supporting the defense tower. have.

It is also an object of the embodiments disclosed in the present specification to provide a dust-collecting tower system in which a muffler installed in a dust-collecting tower can be assembled so that a muffler can be easily installed and separated.

According to an aspect of the present invention, there is provided a dissipative tower system connected to a transfer line through which a gas is transferred to discharge a gas into the atmosphere, And which is connected to the transfer line and is accommodated in the ground in a state that the length of the gas is increased or decreased while the length of the gas is increased or decreased by an external force; A traction unit that extends and contracts the length of the defense tower body by pulling the defense tower body by a pressure of the conveying gas branched from the conveyance line; A gas branching part for branching the gas in the transfer line and supplying the branched gas to the drawing part; And a base unit installed in the ground to provide space for installing the defense tower body and the tow unit.

As a technical means for achieving the above technical object, according to an embodiment of the defense tower system, the gas branching portion includes a branch line branched from the transfer line and connected to the pulling portion; And a branch valve provided on the branch line to supply gas to the tow unit when the arm body is lifted while interrupting the gas in the branch line.

As a technical means for achieving the above technical object, according to one embodiment of the defense tower system, the base unit has a base structure having an opening at an upper portion thereof and being installed in a state buried in the ground to provide a supporting force; A lateral force supporting member connected to an outer circumferential surface of the defense tower body in a state of being fixed to an inner wall of the base structure and supporting the defense tower body in a lateral direction; A condensate drain disposed in the base structure for collecting condensate generated in the main body; And a condensed water pump for discharging the condensed water collected in the condensed water drain to the outside of the base structure.

According to an embodiment of the invention, the lateral force supporting member includes an anchor plate integrally fixed to an inner wall of the base structure. A first stud bolt fixed to the anchor plate; A second stud bolt which is opposed to the first stud bolt and is fixed to an outer circumferential surface of the diaphragm body; And a frame having a predetermined length, one end of each of the lengthwise ends is fastened to the first stud bolt, and the other end of both ends in the length direction is fastened to the second stud bolt to provide a supporting force, And a support frame for providing an installation space for the footrest along the periphery.

As a technical means for accomplishing the above technical object, according to one embodiment of the defense tower system, the base part is installed along the upper end of the base structure and protrudes to the ground, A ventilation wall communicating with outside air; And a sliding door installed on the upper portion of the ventilation wall to form a roof of the base structure and open / close to open / close the base structure.

As a technical means for accomplishing the above technical object, according to an embodiment of the defense tower system, the defense tower system may supply the gas supplied to the towing unit into the inside of the defense tower body when the defense tower body is lowered And discharging the exhaust gas.

According to an aspect of the present invention, there is provided an exhaust throttle system, comprising: a discharge line connecting a traction unit and a discharge tower body to each other to form a gas flow path; And a discharge valve provided on the discharge line for supplying the gas of the drawing part to the discharge tower when the discharge tower body is lowered while interrupting gas of the discharge line.

According to an embodiment of the present invention, the silencer may further include a silencer installed at a lower portion of the main body to reduce noise while forming a connection portion of the transfer line. The silencer may be installed horizontally in the base portion, and a distal end of both ends in the longitudinal direction may be connected to a lower portion of the body of the radiation tower, and the transfer line may be connected to a rear end of the both ends.

According to an aspect of the present invention, there is provided a dust collecting tower including a dust collecting tower main body and a gas branching part connected to the dust collecting tower body, At least a pair of pulling cylinders formed in a telescopic structure such that the length thereof is expandable and contractible in the vertical direction by the gas supply, and the length of the gas branching portion is increased by the supply of the gas, And a telescopic structure which is connected to the abovementioned defense tower main body in a state of being installed on the outer sides of the abovementioned defense tower body respectively so as to be able to extend and retract in the vertical direction and which is interlocked by the operation of said pulling cylinder, And a guide cylinder for guiding it.

As a technical means for achieving the above-mentioned technical object, according to an embodiment of the defense tower system, the transfer line includes a main pipe to which gas is transferred; An intermittent valve for interrupting the main pipe; A sub-pipe connected to the main pipe on the upstream side and the downstream side, respectively, and branching the gas of the main pipe based on the intermittent valve; And a discharge pipe connected to the sub-pipe and connected to the main body of the discharge tower to discharge gas of the main pipe supplied to the sub-pipe to the main body of the discharge tower, And a part of the section may be extended to be exposed to the ground in the ground while being connected to the main body of the defense tower, or may be repeatedly buried in the ground to be buried in the ground.

According to any one of the above-mentioned means for solving the above-mentioned problems, it is possible to raise the defense tower main body without the construction of the hydraulic pump as the towing portion for towing and raising the defense tower body is operated by the gas supplied through the gas branch portion Can be presented.

According to any one of the above-mentioned means for solving the above-mentioned problems, since the gas supplied to the pulling portion is supplied to the shielding column body through the pulling gas discharging portion when the shielding column body descends, the gas in the pulling portion does not flow back to the transferring line, Which can be dissipated through the system.

According to any one of the above-mentioned means for solving the above-mentioned problems, it is possible to house the defense tower main body in the base structure when the base structure is raised to the ground, and the lateral force support member provided on the base structure can support the outer peripheral surface of the defense tower body in the lateral So that it is possible to provide a defense tower system in which the defense tower body can be installed more firmly.

According to any one of the above-mentioned means for solving the problems, the silencer installed at the lower part of the shielding tower body is connected to the shielding tower main body and the conveyance line, System can be presented.

The effects obtained in the disclosed embodiments are not limited to the effects mentioned above, and other effects not mentioned are obvious to those skilled in the art to which the embodiments disclosed from the following description belong It can be understood.

1 is a block diagram schematically showing the construction of a defense tower system according to an embodiment.
2 is a longitudinal sectional view showing the construction of a defense tower system according to an embodiment.
Fig. 3 is a vertical sectional view showing the state that the radiation tower body shown in Fig. 2 is housed in the base portion. Fig.
4 is a cross-sectional view showing the construction of a radiation tower system according to an embodiment.
Fig. 5 is an enlarged view of the lateral force supporting member shown in Fig. 2. Fig.
6 is a longitudinal sectional view showing another embodiment of the silencer shown in Fig.
FIG. 7 is a cross-sectional view illustrating a radiation tower system in which the silencer shown in FIG. 6 is installed.

Various embodiments are described in detail below with reference to the accompanying drawings. The embodiments described below may be modified and implemented in various different forms. In order to more clearly describe the features of the embodiments, detailed descriptions of known matters to those skilled in the art are omitted. In the drawings, parts not relating to the description of the embodiments are omitted, and like parts are denoted by similar reference numerals throughout the specification.

Throughout the specification, when a configuration is referred to as being "connected" to another configuration, it includes not only a case of being directly connected, but also a case of being connected with another configuration in between. In addition, when a configuration is referred to as "including ", it means that other configurations may be included, as well as other configurations, as long as there is no specially contradicted description.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings.

2 is a longitudinal sectional view showing the construction of a defense tower system according to an embodiment, and Fig. 3 is a cross-sectional view showing a structure of a defense tower Fig. 7 is a longitudinal sectional view showing a state in which the main body is housed in the base portion. 4 is a cross-sectional view showing the structure of a defense tower system according to one embodiment, Fig. 5 is a configuration diagram showing an enlarged view of a lateral force supporting member, and Figs. 6 and 7 are views showing another embodiment of a silencer.

Referring to FIG. 1, the radiation tower system 10 according to one embodiment is connected to a transfer line 1 through which gas is transferred to discharge the gas of the transfer line 1 into the atmosphere. And may include a main body 100, a pulling part 200, a gas branching part 300, and a base part 400.

2 and 3, the radiation tower body 100 is a component for discharging the gas of the transfer line 1, and includes a base portion 400, Can be installed.

When the gas is discharged, the armature body 100 is lifted up in the vertical direction due to pulling of the traction unit 200, which will be described later, as shown in FIG. 2, and when the gas discharge is completed, And can be stored in the base unit 400, which will be described later, while descending due to its own weight.

The plurality of unit pipes 110 having different outer diameters are connected in a concentric manner and the unit pipes 110 are pulled out by the operation of the pulling unit 200 so that the length Or the length of the unit pipes 110 may overlap with each other after the gas is discharged.

That is, the outer diameters of the unit pipes 110 are gradually increased from the lower part of the longitudinal direction to the upper part of the body, so that the unit pipes 110 can be vertically extended and contracted while being vertically connected.

In addition, an entrance 120 can be formed at the lower end of the defense tower main body 100 so that an operator can enter and leave the entrance.

The transfer line 1 may be connected to the lower end of the armor body 100 and a silencer 600 may be installed to reduce the noise generated when the gas is discharged.

3, the muffler 600 may be fixed in a state of being vertically installed in a lower part of the main body 100 of the defense tower 100, and may be fixed to the muffler 600 through a silencer support frame 610, And may be removably installed while being separated from the inner circumferential surface and the bottom surface of the main body 100. That is, the muffler 600 is assembled to the shield body 100, thereby facilitating installation and disconnection.

6, the silencer 600 may be installed on the outer side of the arming tower body 100 and connected to the arming tower body 100 and the transferring line 1 while being installed in a horizontal state as shown in FIG.

Specifically, the muffler 600 is installed horizontally in a base unit 400 to be described later, and a distal end of both ends in the longitudinal direction is connected to a lower portion of the armature body 100, and a rear end of both ends in the longitudinal direction is connected to a transfer line 1 so that the discharge noise can be reduced while discharging the gas of the transfer line 1 to the radiation tower body 100.

The muffler 600 may be horizontally received in the muffler accommodating portion 480 provided at one side of the base structure 410 constituting the base portion 400 and fixed to the bottom surface of the muffler accommodating portion 480 And can be fixed in a horizontal state while the lower portion is supported by the silencer supporting member 620. The silencer cover 480 can be coupled to the silencer cover 481 to shield the silencer 600.

The tow unit 200 is a component that extends the length of the defense tower main body 100 by pulling up the defense tower main body 100 when the gas is released.

The traction unit 200 is connected to the conveyance line 1 by a gas branching unit 300 to be described later and is supplied with the gas pressure of the conveyance line 1 at the time of gas discharge from the defense tower main body 100, And can be extended by raising the defense tower main body 100 by being connected to the defense tower main body 100.

Specifically, the pulling portion 200 may be configured to include a pulling cylinder 210 and a guide cylinder 220.

The pulling cylinder 210 is a component for pulling the shielding column body 100 with its length being increased by the gas supply of a gas supply part 300 to be described later. The pulling cylinder 210 is composed of a plurality of pipes so as to be able to extend and retract in the vertical direction, And may be connected to a branch line 310 constituting a gas supply unit 300 to be described later, as shown in FIG. 1, to operate by receiving gas from the transfer line 1.

The towing cylinders 210 are connected to a plurality of unit pipes 110 constituting the defense tower main body 100 through a plurality of connecting rods 211 in a state where at least one pair of the towing cylinders 210 are installed on both sides of the outside of the defense tower main body 100 So that the defense tower main body 100 can be towed and raised.

Meanwhile, the drawing cylinder 210 may be connected to an unillustrated emergency hydraulic pump.

The emergency hydraulic pump may be connected to the pulling cylinder 210 to provide the hydraulic pressure while being separated from the gas supply unit 300.

That is, the pulling cylinder 210 can be pulled up by receiving the hydraulic pressure of the emergency hydraulic pump when the gas pressure is low, while being operated by the gas pressure of the gas supply part 300.

The guide cylinder 220 is a component for guiding the lifting and lowering of the defense tower main body 100 when the defense tower main body 100 is lifted by the towing cylinder 210. The guide cylinder 220 has a telescopic structure And at least one pair may be provided at the front and rear of the outside of the shield body 100 and connected to the shield body 100 through a link.

Since the guide cylinder 220 is not connected to the transfer line 1, when the arm body 100 is moved up and down with the arm body 100 by the pulling cylinder 210, So that it can be guided to vertically move up and down.

The gas branching unit 300 is a component that branches the gas in the transfer line 1 and supplies the branched gas to the drawing cylinder 210 constituting the drawing unit 200.

Specifically, the gas branch 300 may include a branch line 310 and a branch valve 320, as shown in FIG.

The branch line 310 branches from the gas transfer line 1 and is respectively connected to the pair of pulling cylinders 210 described above to form a path for gas movement for operation of the pulling cylinder 210. [

1, the transfer line 1 may include a main pipe 1a, a sub pipe 1b, an intermittent valve 1c, and a discharge pipe 1d, Can be connected to the main pipe 1a of the transfer line 1 via the sub pipe 1b.

The sub piping 1b is connected to the branch line main body 100 so that both upstream and downstream gas can be supplied to the main body 100 and the branch line 310 on the basis of the intermittent valve 1c for interrupting the main piping 1a And can be connected to the upstream side and the downstream side main pipe 1a on the basis of the valve S1.

The discharge pipe 1d discharges the gas of the main pipe 1a supplied to the sub pipe 1b to the discharge tower main body 100 while the sub pipe 1b is connected to the branch line 310 To supply a portion of the gas to the pulling cylinder 210. [

Here, the arrester pipeline 1d may be extended from the sub piping 1b to the defense tower main body 100 while being refracted to the ground in the ground and repeatedly buried in the ground.

That is, the entire pipeline 1d is not exposed to the ground, and a part of the pipeline 1d is buried in the ground, so that the noise of the gas can be reduced.

The branch valve 320 is a component that is installed on the branch line 310 and controls the gas of the branch line 310.

The branch valve 320 actuates the pulling cylinder 210 by opening the branch line 310 and supplying the gas of the transfer line 1 to the pulling cylinder 210 when raising the arm body 100, The gas supply can be stopped by closing the branch line 310 when the upward movement of the defense tower main body 100 is completed.

In the drawing cylinder 210, when the discharge of the gas is completed, the discharge tower main body 100 can lower the discharge tower main body 100 by its own weight. At this time, the gas supplied from the branch line 310 is discharged It is possible to allow the downward movement of the radiation tower body 100 by releasing the gas pressure filled therein.

1, the gas filled in the pulling cylinder 210 is supplied to the inside of the shielding tower main body 100 through the pulling gas exhausting part 500 and discharged to the outside through the shielding tower main body 100 .

Specifically, the drawn gas discharge portion 500 may be configured to include a discharge line 510 and a discharge valve 520.

The discharge line 510 connects each of the pair of draw cylinders 210 with the discharge tower main body 100 to form a path of the gas filled in the pull cylinder 210.

The discharge valve 520 is a component that is individually installed on each discharge line 510 and opens and closes the discharge line 510.

The discharge valve 520 allows the lowering of the discharge tower body 100 by its own weight by opening the discharge line 510 when the discharge tower body 100 is lowered and releasing the gas pressure of the drawing cylinder 210, The gas in the discharge line 510 is supplied to the discharge tower main body 100 so that the gas can be discharged to the outside through the discharge tower main body 100.

2 and 3, the base unit 400 includes a component that accommodates the defense tower body 100 while providing a space for installing the defense tower body 100 and the towing unit 200, to be.

Specifically, the base portion 400 may include a base structure 410, a lateral force supporting member 420, a condensate drain 430, and a condensate pump 440.

The base structure 410 may be installed in the ground to provide a supporting force, and may be formed in an enclosed shape having an opening at an upper portion thereof and buried in the ground.

The base structure 410 may be made of, for example, a material containing vermiculite mortar. As is known, vermiculite mortar is made by mixing vermiculite with cement and it is excellent in heat insulation and sound absorption.

4, the base structure 410 may be provided with a ladder 411 to provide an operator's access path, and a work foot plate (not shown) may be installed through a support frame 434 It is possible. 6, when the silencer 600 is installed in a horizontal state, the silencer housing 480 may be formed at one side of the base structure 410.

3, the base structure 410 may include a ventilation wall 450 and a sliding door 460 at an upper end thereof.

The ventilation wall 450 is installed along the upper end of the base structure 410 and protrudes to the ground and is openable and closable so that air can communicate with the inside of the base structure 410.

The sliding door 460 is installed on the upper portion of the ventilation wall 450 to form a roof of the base structure 410 and can be opened and closed while being slid on both sides to open and close the base structure 410.

The lateral force supporting member 420 is a component for preventing the lateral movement of the armature body 100 by supporting the armature body 100 in the lateral direction and is fixed to the inner wall of the base structure 410, And is connected to the outer circumferential surface of the top body 100, thereby supporting the radiation tower body 100 in the lateral direction.

4, the lateral support members 420 may be installed radially around the defense tower body 100 to support the defense tower body 100 in the lateral direction, So that the supporting force can be reinforced.

Specifically, the lateral force-supporting member 420 may be configured to include an anchor plate 421, a first stud bolt 422, a second stud bolt 423, and a support frame 434 as shown in Fig. 5 have.

The anchor plate 421 may be fixed to the inner wall of the base structure 410 to provide a supporting force.

The first stud bolt 422 is fixed to the anchor plate 421 to form a fastening portion of the support frame 424.

The second stud bolt 423 faces the first stud bolt 422 and is fixed to the outer circumferential surface of the armature body 100 to form a fastening portion of the support frame 424.

Here, the first stud bolt 422 and the second stud bolt 423 can be fixed to the anchor plate 421 and the armor body 100 by welding, respectively. Alternatively, a fixing member such as a fixing bolt .

The support frame 424 is a component provided between the base structure 410 and the defense tower main body 100 to provide lateral support force. One end of the both ends in the longitudinal direction is fastened to the first stud bolt 422 And the other end is fastened to the second stud bolt 423, thereby providing a lateral supporting force.

The supporting frame 424 may be fixed along the circumference of the defense tower main body 100 to provide a supporting force and may be fixed while forming multiple layers in the longitudinal direction of the defense tower main body 100.

Here, the support frame 424 may be provided with a work foot plate (not shown) which constitutes a movement path of an operator.

The condensate drain 430 is a component for collecting condensate generated in the main body 100 and is formed at one side of the base structure 410 to form a collecting space.

The condensate drain 430 may be connected to a condensate discharge valve 431 connected to the discharge tower main body 100.

In addition, the condensate drain 430 can collect the wastewater flowing into the opening of the base structure 410 or the ventilation wall 450 during rainy weather or emergency dissemination.

The condensate pump 440 is connected to the outside of the base structure 410 in a state where it is installed in the condensate drain 430 and can discharge the water collected in the condensate drain 430 to the outside.

The operation and operation of the defense tower system 10 according to an embodiment including the above-described components will be described.

The branch valve 320 constituting the gas branching section 300 opens the branch line 310 and discharges the gas to the sub pipe 1b of the transfer line 1, And supplies a part of the gas of the combustion chamber 1a to the drawing cylinder 210.

The pulling cylinder 210 pulls the riser body 100 upward by increasing the length of the pulling cylinder 210 by the gas pressure supplied from the branch line 310. Accordingly, the radiation tower body 100 rises to the upper portion of the base structure 410 and extends in length.

The branching valve 320 closes the branch line 310 to stop the gas supply and the main body 100 of the shielding column 100 is connected to the main pipe 1a ) To the atmosphere.

The discharge valve 520 constituting the drawn gas discharge portion 500 opens the discharge line 510 to supply the gas filled in the drawing cylinder 210 to the discharge tower main body 100, .

At this time, as the gas pressure of the pulling cylinder 210 is released, the defense tower main body 100 can be lowered by its own weight and stored in the base structure 410.

As described above, in the arming tower system 10 according to the embodiment, the towing cylinder 210 for towing the defense tower main body 100 is operated by the gas branched from the conveying line 1, It is possible to simplify the configuration because the defense tower main body 100 can be raised without a pump, and when the defense tower main body 100 is lowered, the gas supplied to the towing cylinder 210 is guided to the drawn- The gas in the drawing cylinder 210 can be dissipated through the radiation tower body 100 without flowing back to the transfer line 1 because the radiation is supplied to the radiation tower body 100 through the radiation tube 500.

It will be apparent to those skilled in the art that the above-described embodiments are for illustrative purposes only and that those skilled in the art will readily understand that various changes and modifications can be made without departing from the spirit or scope of the present invention. You will understand. It is therefore to be understood that the above-described embodiments are to be considered in all respects only as illustrative and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

It is to be understood that the scope of the present invention is defined by the appended claims rather than the foregoing description and should be construed as including all changes and modifications that come within the meaning and range of equivalency of the claims, .

10: Defense tower system
100: Dustproof tower body
110: unit pipe 120: entrance
200:
210: towing cylinder 220: guide cylinder
300: gas branch portion
310: branch line 320: branch valve
400: Base portion
410: base structure 420: lateral force supporting member
421: anchor plate 422: first stud bolt
423: second stud bolt 424: support frame
430: Condensate drain 440: Condensate pump
450: Ventilation wall 460: Sliding door
480: Silencer accommodating part 481: Silencer cover
500: Traction gas discharge part
510: discharge line 520: discharge valve
600: Silencer
1: transfer line
1a: main pipe 1b: sub pipe
1c: Intermittent valve 1d: Discharge piping

Claims (12)

1. An atomic tower system connected to a transfer line through which gas is transferred to discharge the gas into the atmosphere,
A radiation tower body formed in a telescopic structure so as to be able to extend and retract in the vertical direction and connected to the transfer line and housed in the ground in a state that the length of the gas is increased or decreased while the length is increased while being increased by external force;
A traction unit that extends and contracts the length of the defense tower body by pulling the defense tower body by a pressure of the conveying gas branched from the conveyance line;
A gas branching part for branching the gas in the transfer line and supplying the branched gas to the drawing part; And
And a base unit installed in the ground to provide space for installing the defense tower body and the tow unit,
The base unit includes:
A base structure provided in a state of being embedded in the ground to provide a supporting force while forming an enclosure having an opening at an upper portion thereof;
A lateral force supporting member connected to an outer circumferential surface of the defense tower body in a state of being fixed to an inner wall of the base structure and supporting the defense tower body in a lateral direction;
A condensate drain disposed in the base structure for collecting condensate generated in the main body; And
And a condensate pump for discharging the condensed water collected in the condensate drain to the outside of the base structure,
The lateral force-
An anchor plate secured to an inner wall of the base structure in an identical manner;
A first stud bolt fixed to the anchor plate;
A second stud bolt which is opposed to the first stud bolt and is fixed to an outer circumferential surface of the diaphragm body; And
Wherein one end of the longitudinal studs is fastened to the first stud bolt and the other end of the longitudinal studs is fastened to the second stud bolt to provide a supporting force, And a support frame for providing an installation space for the work footplate along the support frame.
The method according to claim 1,
The base unit includes:
A ventilation wall which is installed along the upper end of the base structure and protrudes to the ground and is openable and closable to communicate external air to the inside of the base structure; And
And a sliding door installed at an upper portion of the ventilation wall to form a roof of the base structure and open / close to open / close the base structure.
1. An atomic tower system connected to a transfer line through which gas is transferred to discharge the gas into the atmosphere,
A radiation tower body formed in a telescopic structure so as to be able to extend and retract in the vertical direction and connected to the transfer line and housed in the ground in a state that the length of the gas is increased or decreased while the length is increased while being increased by external force;
A traction unit that extends and contracts the length of the defense tower body by pulling the defense tower body by a pressure of the conveying gas branched from the conveyance line;
A gas branching part for branching the gas in the transfer line and supplying the branched gas to the drawing part; And
And a base unit installed in the ground to provide space for installing the defense tower body and the tow unit,
The base unit includes:
A base structure provided in a state of being embedded in the ground to provide a supporting force while forming an enclosure having an opening at an upper portion thereof;
A lateral force supporting member connected to an outer circumferential surface of the defense tower body in a state of being fixed to an inner wall of the base structure and supporting the defense tower body in a lateral direction;
A condensate drain disposed in the base structure for collecting condensate generated in the main body;
A condensate pump for discharging the condensed water collected in the condensed water drain to the outside of the base structure;
A ventilation wall which is installed along the upper end of the base structure and protrudes to the ground and is openable and closable to communicate external air to the inside of the base structure; And
And a sliding door installed at an upper portion of the ventilation wall to form a roof of the base structure and open / close to open / close the base structure.
The method of claim 3,
The lateral force-
An anchor plate secured to an inner wall of the base structure in an identical manner;
A first stud bolt fixed to the anchor plate;
A second stud bolt which is opposed to the first stud bolt and is fixed to an outer circumferential surface of the diaphragm body; And
Wherein one end of the longitudinal studs is fastened to the first stud bolt and the other end of the longitudinal studs is fastened to the second stud bolt to provide a supporting force, And a support frame for providing an installation space for the work footplate along the support frame.
The method according to claim 1 or 3,
The gas-
A branch line branched from the transfer line and connected to the traction unit; And
And a branch valve provided on the branch line for supplying gas to the tow unit when the arm body is raised while interrupting the gas in the branch line.
The method according to claim 1 or 3,
The above-
Further comprising a traction gas discharge unit for supplying the gas supplied to the tow unit to the inside of the defense tower body when the defense tower body is lowered.
The method according to claim 6,
The drawing gas discharging portion,
A discharge line connecting the traction unit and the arm body to each other to form a gas flow path; And
And a discharge valve provided on the discharge line to supply the gas of the drawing part to the discharge tower when the discharge tower body is lowered while interrupting the gas of the discharge line.
The method according to claim 1 or 3,
The above-
Further comprising a silencer installed at a lower portion of the main body of the defense tower to reduce noise while forming a connection portion of the transfer line.
9. The method of claim 8,
The muffler includes:
And a transfer line connected to a rear end of the both ends of the both ends of the both ends in the longitudinal direction.
The method according to claim 1 or 3,
The pulling-
And a gas supply unit connected to the gas supply tower body and the gas branching unit in a state where the gas supply unit is installed in both sides of the outside of the shielding tower body and is formed in a telescopic structure so as to be able to expand and contract in a vertical direction by gas supply, At least one pair of towing cylinders for extending the length of the elongating body to raise the arm body; And
The telescopic structure is formed in a telescopic structure so that the longitudinal direction of the telescopic structure can be expanded and contracted. The lifting and lowering of the telescopic tower body is guided by the pull cylinder, Wherein the guide cylinder comprises a guide cylinder.
The method according to claim 1 or 3,
Wherein the transfer line
A main pipe through which gas is delivered;
An intermittent valve for interrupting the main pipe;
A sub-pipe connected to the main pipe on the upstream side and the downstream side, respectively, and branching the gas of the main pipe based on the intermittent valve; And
And a discharge pipe connected to the sub-pipe and connected to the main body of the discharge tower, for discharging the gas of the main pipe supplied to the sub-pipe to the main body of the discharge tower.
12. The method of claim 11,
The above-
And the sub-pipe is connected to the main body of the defense tower, and a portion of the sub-pipe is bent so as to be exposed to the ground or refracted from the ground to the ground.

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