KR101638829B1 - a safety charging box for high pressure breathing air - Google Patents

Abstract

The present invention relates to a safe charging box for high pressure breathing air, capable of charging a breathing air container with air. According to an embodiment of the present invention, the safe charging box includes: a charging casing including a storage space to store the air container, and of which front is opened; a side pressure distributing panel including multiple pressure distributing holes to separately seal both sides of the charging casing and distribute pressure when the air container in the storage space explodes; a side finishing panel placed outside the side pressure distributing panel to form a guide duct space to guide the air, discharged through the pressure distributing holes by the explosion of the air container, to the top and bottom of the charging casing; and an opening door installed in the opened front part of the charging casing to be rotatable to open and close the storage space, and equipped with a placement bracket in which the air container is placed. Therefore, the present invention is capable of preventing an accident caused by the explosion of the air container.

Description

{A safety charging box for high pressure breathing air}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-pressure air-tight charging compartment for breathing which charges air into a breathing air chamber.

In general, when scuba diving, or when firefighters enter a fire scene to quell a fire, they plug in the air reservoir and breathe using compressed air in the reservoir. Then, the used air can be re-used by compressing and charging the air again.

However, there is a problem that there is no cradle that can safely mount the air cushion when charging the air cushion, so that the air cushion is exposed to an environment in which the air cushion is damaged. Therefore, conventionally, A breathing air compressor having a stationary structure "has been disclosed.

A breathing air compressor having a mounting structure of a conventional portable tank is a breathing air compressor for generating high-pressure air. The breathing air compressor comprises a casing for enclosing the outside, a rotating plate A bottom plate having one end connected to the lower end of the inner surface of the rotating plate and the other end extending in a predetermined width inwardly, a lower end attached to the bottom plate, one side fixed to the rotating plate, A support means for supporting the rotary plate so as to be pulled out only at a predetermined angle, and a locking means for fixing the rotary plate to the frames on both sides when the rotary plate is housed.

However, when the compressed air is filled in the damaged air cylinder, the pressure generated due to the explosion of the air cylinder and the debris of the broken air cylinder There is a problem that an accident occurs in which a person nearby is injured.

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 provide a high-pressure air filling compartment for breathing which can prevent the occurrence of safety accidents .

According to an aspect of the present invention, there is provided a high-pressure air safety filling compartment for breathing, comprising: a charging casing having a receiving space formed therein for receiving an air cylinder and having a front opening; A side pressure distribution plate having a plurality of pressure dispersion holes formed therein so as to disperse the pressure when the air chamber accommodated in the space is dispersed, and a guide duct space for guiding the air discharged to the pressure dispersion holes by the explosion of the air chamber, A side surface finishing plate spaced apart from the side pressure distribution plate, and an opening / closing door provided rotatably in front of the opening of the charging casing to open / close the accommodation space and to receive the seating bracket.

The opening / closing door may include a door pressure distribution plate formed between the opening / closing door and the seating bracket and having a plurality of pressure dispersion holes formed therein so as to disperse the pressure when the air chamber explodes.

Wherein the opening / closing door includes a safety handle installed at an upper portion of the opening / closing door so as to be rotatable up and down, and the charging casing is configured such that when the opening / closing door closes the accommodation space, And a handle fastening portion for fastening the opening and closing door.

The safety handle may include a plate portion formed in a plate shape such that an end of the plate portion extends, and a grip portion which is spaced apart from the plate portion and is held to rotate the plate portion.

The safety handle may include a handle damper for elastically supporting the safety handle in the opening / closing door so that the safety handle may cover the handle engagement portion.

The safety handle may include a stopper for preventing rotation of the safety handle on the opening / closing door to prevent the safety handle from rotating due to rotation of the safety handle on the handle gripping part.

The door opening / closing door may include a door support damper elastically supporting the opening / closing door to prevent the opening / closing door from opening rapidly due to the self weight of the air cylinder in a state where the air cylinder is seated on the seating bracket.

At least one of the surfaces surrounding the accommodation space may be formed of a pressure-distributing wall including a lattice-shaped lattice frame in which air flows and a mesh-shaped pressure dispersion net attached to the lattice frame to disperse air have.

The pressure dispersion hole may be formed in a ten-sided shape so as to reduce the discharge of debris to the pressure dispersion hole when the air can explode.

And a cooler for supplying cool air to the accommodation space to cool the air can upon filling the air can.

According to the present invention, the pressure is dispersed in the side pressure distribution plate when the air can explode, and the air having the dispersed pressure is sprayed up and down through the guide duct space, thereby preventing the occurrence of safety accident due to explosion of the air can.

Further, a door pressure distributing plate for distributing pressure to the opening / closing door is also provided to disperse the pressure discharged to the door side, thereby preventing the occurrence of a safety accident due to explosion of the air can.

Further, it is possible to prevent the safety knob from being fixed by the stopper, and to prevent the safety accident caused by opening the door when the air can explode.

Further, a cooler can be installed to charge a constant amount of air into the air cylinder.

In addition, one side of the accommodation space is formed of a pressure-distributing wall and discharges the pressure during the explosion of the air box, thereby preventing the charging casing from being broken and the safety accident caused by the explosion.

FIG. 1 is a perspective view illustrating a high-pressure air safety filling compartment for breathing according to an embodiment of the present invention.
2 is a perspective view illustrating a charging casing constituting a high-pressure air safety filling compartment for breathing according to an embodiment of the present invention.
3 is a front cross-sectional view illustrating a high-pressure air safety filling compartment for breathing according to an embodiment of the present invention.
4 is a perspective view illustrating an opening / closing door constituting a high-pressure air filling compartment for breathing according to an embodiment of the present invention.
FIG. 5 is a side cross-sectional view illustrating a high-pressure air filling compartment for breathing according to an embodiment of the present invention, in which the opening and closing door closes the accommodation space.
FIG. 6 is a side cross-sectional view illustrating a high-pressure air filling compartment for breathing according to an embodiment of the present invention, in which the opening and closing door opens the accommodation space.
FIG. 7 is a side cross-sectional view illustrating a safety handle of a high-pressure air-filling compartment for breathing according to an embodiment of the present invention, in which a safety handle is fixed to the handle gripping part.
FIG. 8 is a side cross-sectional view illustrating a safety handle of a high-pressure air-filling compartment for breathing according to an embodiment of the present invention, in which the safety handle is released from being fixed in the gripping part.
FIG. 9 is a side cross-sectional view showing a safety handle of a high-pressure air filling compartment for breathing according to an embodiment of the present invention, in which the safety handle is fixed by a stopper.
10 is a perspective view showing a pressure distribution wall forming a receiving space of a breathing high-pressure air safe filling compartment according to an embodiment of the present invention.

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

As shown in FIGS. 1 and 2, the high-pressure air-tight charging compartment 100 for breathing according to an embodiment of the present invention may include a charging casing 110.

The charging casing 110 can accommodate the air cylinder 190 to be charged and charge the air.

The charging casing 110 may include a receiving space 111 in which the air chamber 190 is to be accommodated and a control space 113 is formed in the upper portion of the receiving space 111 to partition the receiving space 111 .

A control panel 116 may be provided in the control space 113. The control box 116 may include a control switch for controlling the pressure when the air cylinder 190 is filled with air or a gauge for confirming the pressure. And a pipe connected to the air box 190 for charging air.

The bottom plate of the charging casing 110 may be spaced apart from the bottom, and a plurality of pressure dispersion holes may be formed in the bottom plate to disperse the pressure of the air chamber 190 when the air chamber 190 explodes.

The side surfaces of the charging casing 110 are sealed by the side pressure distribution plate 120 to be described later and the charging casing 110 includes a top plate for partitioning the control space 113 and the accommodation space 111, A pressure distribution hole is not separately formed in the thick plate for sealing the rear surface of the space 111.

Here, when the pressure dispersion hole 121 formed in the side pressure distribution plate 120 is formed in a circular shape, the debris of the air chamber 190 can be easily discharged, so that the pressure dispersion hole 121 can be formed in a ten- At this time, the cross-shaped pressure dispersion hole 121 may be formed to have a larger length than the width.

When the pressure dispersion hole 121 is formed in a cross shape in this manner, it is possible to prevent the debris from splashing while easily discharging the air.

Meanwhile, the charging casing 110 may include the pressure-distributing wall body 180.

As shown in FIGS. 2 and 10, the pressure-distributing wall body 180 can discharge the pressure when the air chamber 190 explodes.

The pressure-distributing wall body 180 may include a grid frame 181 and a pressure-distributing net 183.

The lattice frame 181 may be configured to form a plurality of ribs in a lattice form, or a plate may be formed in a lattice form only Or may be formed in a form of forming a plurality of holes so as to remain.

The pressure dispersion net 183 may be installed in the form of a mesh on the front or rear side or both the front side and the rear side of the grid frame 181 and the pressure dispersion net 183 may be provided on both sides of the grid frame 181 When installed, the pressure dispersion net 183 attached to the front and rear surfaces may have different densities to enhance the pressure dispersion effect.

As shown in FIGS. 2 and 5, the high-pressure air safety filling compartment 100 for breathing according to the embodiment of the present invention may include a side pressure distribution plate 120.

The side pressure distribution plate 120 may be installed on both sides of the accommodation space 111 to seal both side surfaces of the accommodation space 111. The side pressure distribution plate 120 may be disposed on both sides of the accommodation space 111, A plurality of pressure distribution holes 121 through which air is discharged may be formed.

The side pressure distribution plate 120 may be formed with a pin hole 123 through which the door hinge shaft 145 of the opening and closing door 140 is to be installed. Guide holes 125 for guiding the guide grooves 147 may be formed.

Here, the guide hole 125 can set the opening / closing degree of the opening / closing door 140 by limiting the distance that the guide shaft 147 can move.

As shown in FIGS. 1 and 3, the high-pressure air-filling compartment 100 for breathing according to the embodiment of the present invention may include a side finishing plate 130.

The side finishing plate 130 forms a guide duct space 117 for guiding upward and downward the air discharged through the pressure dispersion holes 121 of the side pressure distribution plate 120 by being spaced apart from the side pressure distribution plate 120 can do.

The side finishing plate 130 is installed on the four corners of the charging casing 110 so that the frame 119 having a shape of a cross section in the shape of a letter C can be installed so as to be spaced apart from the side pressure distributing plate 120. [ And then attaching the side finishing plate 130 to the outside.

The guide duct space 117 is configured such that the air discharged into the guide duct space 117 passes through the guide duct space 117 while the pressure of the guide duct space 117 is primarily reduced by the side pressure distribution plate 120 when the air cylinder 190 is exploded. It is possible to minimize the breakage of the high-pressure air-safe filling compartment 100 for breathing due to the explosion of the air-compartment 190, by dispersing the upper and lower portions of the guide duct space 117 along the guide duct space 117 to reduce the secondary pressure.

4 to 6, the high-pressure air safety filling compartment 100 for breathing according to the embodiment of the present invention may include an opening / closing door 140.

The opening and closing door 140 can open and close the accommodation space 111 so that the air can 190 can be carried in or out of the accommodation space 111.

On the other hand, the opening and closing door 140 has a door hinge shaft 145 protruding from both sides of the center portion and being fitted into the pin hole 123 of the side pressure distributing plate 120, The air cylinder 190 can be inserted into the opened upper portion or the inserted air cylinder 190 can be taken out in accordance with the rotated state of the opening and closing door 140. [

When the opening and closing door 140 is closed by the rotation of the opening and closing door 111, the air can 190 can be positioned inside the accommodation space 111.

A guide shaft 147 guided and moved along the guide hole 125 formed in the side pressure distributing plate 120 may be installed on the lower end portion of the opening and closing door 140 so as to protrude from both sides.

The opening and closing door 140 may include a seating bracket 141.

The seating bracket 141 may be installed on the opening and closing door 140 to seat the air chamber 190 on the opening and closing door 140.

The seating bracket 141 may be provided on the inner surface of the opening / closing door 140 with a plurality of seating portions 141a formed therein so as to receive the plurality of air cylinders 190 therebetween. The seating bracket 141 may be provided with an elastic pad for preventing the air cylinder 190 from being damaged when the air cylinder 190 is attached to or detached from the seating portion 141a.

In this case, when the seat bracket 141 is formed as a cylinder having no seam such as welding, the explosion pressure of the air chamber 190 is evenly distributed, thereby preventing breakage of the opening and closing door 140 and the back plate And a plurality of cylindrical seating brackets 141 may be coupled to the opening and closing door 140 when a plurality of the cylinders 190 are inserted.

Here, when the seat bracket 141 is formed as a cylinder having no seam such as welding, it is possible to prevent breakage of the opening / closing door 140 due to breakage of the joint portion when the air chamber 190 is exploded.

Further, the opening / closing door 140 may include a door pressure distribution plate 143.

The door pressure distributing plate 143 can reduce the pressure of the air acting on the opening / closing door 140 when the air chamber 190 is exploded.

On the other hand, the door pressure distribution plate 143 is installed to be spaced apart from the opening / closing door 140 inside the opening / closing door 140, and a plurality of pressure distribution holes 143a are formed, And can be discharged through the door pressure distributor plate 143.

The opening / closing door 140 may be provided with a door damper 149 for preventing the gas cylinder from easily opening due to the weight of the gas cylinder when the gas cylinder is seated on the seating bracket 141.

One end of the door damper 149 is coupled to the door pressure distributing plate 143 or the charging casing 110 and the other end is connected to the opening / closing door 140, The door 140 can be elastically supported by the charging casing 110 and the door damper 149 can be realized by a damper having a known pneumatic or hydraulic cylinder structure.

As shown in FIGS. 7 and 8, the opening and closing door 140 may include a safety handle 150.

The safety handle 150 can secure the opening / closing door 140 in a state in which the opening / closing door 140 seals the accommodation space 111.

The safety handle 150 may be installed on the opening and closing door 140 so as to be vertically rotatable about the handle hinge shaft 152 protruding from both sides and the safety handle 150 may be mounted on the upper end of the opening and closing door 140 . ≪ / RTI >

The safety handle 150 may include a latching plate portion 151 and a grip portion 153.

The holding plate portion 151 may be formed in a shape of a lying plate and the holding portion 153 is positioned to be spaced forward or downward of the holding plate portion 151 so as to be easily gripped by the holding plate portion 151, The grip portion 153 may be formed in the shape of a rod or a bar so that an operator can grip the entire safety handle 150 including the gripping plate portion 151 through the grip portion 153, Can be rotated up and down.

A safety handle 150, or more specifically, a handle gripper part 115 for covering the end of the straddle plate 151 may be formed at an upper portion of the front of the charging casing 110 where the opening and closing door 140 is installed have.

And, the safety handle 150 may include a handle damper 159.

The handle damper 159 is moved in a state in which the safety handle 150 is upwardly moved by the resilient force of the holding plate portion 151 of the handle gripper portion 115 in a state in which the opening / closing door 140 seals the receiving space 111 So that the safety handle 150 can be maintained to be rotated upward in the opening / closing door 140 so that the safety handle 150 can be lifted.

As shown in FIG. 9, the safety handle 150 may include a stopper 155.

The stopper 155 rotates downward when the safety handle 150 is extended over the fastening plate 151. For example, when the air cylinder 190 is detonated, the safety handle 150 rotates downward from the gripping hook 115 It is possible to prevent the opening / closing door 140 from being unfastened.

The stopper 155 may be formed in a rod shape and coupled to the stalk plate 151 so as to be vertically rotatable in the stalk plate 151, and may be slidably coupled to the left and right.

The opening / closing door 140 may be formed with a stopper support groove 157 which is open laterally so that the stopper 155 can be supported.

The stopper 155 thus constructed is positioned so that the stopper 155 is positioned in the stopper support groove 157 when the fastening plate 151 of the safety handle 150 is in contact with the gripping hook 115 of the charging casing 110 And the stopper support groove 157 is pushed in the open side direction of the stopper support groove 157 so that the stopper 155 is firmly supported.

As shown in FIGS. 1 and 3, the high-pressure air-filling compartment for breathing 100 according to the embodiment of the present invention may include a top cover 170.

The upper cover 170 may seal the upper portion of the charging casing 110 and more specifically the upper portion of the control space 113 in which the upper portion in which the control panel 116 is accommodated is opened. The upper end portion of the guide duct space 117 formed by the side finishing plate 130 on both the left and right sides of the guide duct space 117.

A portion of the upper cover 170 may be coupled to the upper portion of the charging casing 100 by a hinge so as to be rotatable up and down. The upper cover 170 may be coupled to the upper portion of the guide duct space 117 at the time of explosion of the air- And can be opened by the discharged air.

That is, the upper cover 170 is opened by the pressure of the air discharged into the guide duct space 117 at the time of explosion of the air can 190 in a state of sealing the upper part of the guide duct space 117, It is possible to reduce the pressure of the air generated at the time of opening.

When the cooler 160 described below is mounted on the upper cover 170, only the portion covering the guide duct space 117 is divided into the upper cover 170 and the cooler 160 when the air chamber 190 is exploded. It is needless to say that only the remaining portion except for the portion to which the seat is seated can be opened.

As shown in FIGS. 1, 4, and 5, the high-pressure air-tight charging compartment 100 for breathing according to an embodiment of the present invention may include a cooler 160.

The cooler 160 cools the air chamber 190 in such a manner as to cool the accommodation space 111 when the air chamber 190 is filled so that the air chamber 190 is heated to a pressure lower than the proper capacity to be filled, Can be prevented.

 That is, since the cooler 160 charges the air cylinder 190 with a forced pressure when the air is filled, the temperature of the air cylinder 190 may be increased. When the temperature of the air cylinder 190 is increased, It is possible to lower the temperature of the accommodation space 111 in order to charge the air in the proper air space 190 with a proper capacity.

On the other hand, the cooler 160 includes a condenser 160, a condenser for compressing the condensed refrigerant, and an expansion valve for expanding the refrigerant. The cooler 160 includes a cooler 160 The detailed description of the cooler 160 will be omitted.

The cooler 160 may be accommodated in the control space 113 or may be seated on the upper portion of the charging casing 110 and a duct for supplying cool air generated in the cooler 160 may be accommodated in the accommodation space 111 Can be connected.

The operation and effect between the above-described respective constitutions will be described.

The safety high pressure air filling compartment 100 for breathing according to the embodiment of the present invention is configured to hold the grip 153 of the safety handle 150 while the opening and closing door 140 is hermetically closed in the accommodation space 111, .

When the safety handle 150 is rotated downward, the latching plate portion 151 of the safety handle 150 is released from the gripping hook portion 115 of the charging casing 110 to release the fixing of the opening and closing door 140, 190 are pulled forward to open the accommodating space 111 so as to accommodate the accommodating space 111 in the accommodating space 111.

When the accommodation space 111 is opened, the air chamber 190 is inserted into the seating portion 141a formed in the seating bracket 141 through the upper portion of the open / close door 140, and then installed in the control panel 116 Closing door 140 is rotated backward by using the safety handle 150 so that the charging nozzle (not shown) for filling the air is connected to the air cylinder 190 and the opening and closing door 140 seals the accommodation space 111 .

At this time, since the door damper 149 resiliently supports the rotation of the opening / closing door 140, the opening / closing door 140 prevents the opening / closing door 140 from being suddenly opened or closed by the self weight of the air cylinder 190 can do.

When the accommodating space 111 is closed by the opening and closing door 140, when the opening and closing door 140 is pushed backward, the latching plate 151 of the safety handle 150 is moved to the upper end of the accommodating space 111 The safety handle 150 is lowered by the handle gripper portion 115 and the safety handle 150 is raised by the handle damper 159 when the opening and closing door 140 completely seals the accommodation space 111 The opening / closing door 140 is fixed in such a manner that the end of the straddle plate portion 151 is stuck on the handle grip portion 115.

When the opening / closing door 140 seals the receiving space 111, the stopper 155 located at the lower portion of the latching plate 151 is inserted into the stopper supporting groove 157 The stopper 155 is slidably moved in the lateral direction so that the stopper 155 is not detached from the stopper support groove 157. [

The high-pressure respiratory air charging compartment 100 having the air reservoir 190 performs air filling at a predetermined pressure through the control panel 116. The air filling compartment 100 is provided with an air reservoir 190, When the air box 190 explodes due to breakage, the pressure of the air to be exploded is dispersed by the side pressure distributing plate 120 and is discharged to the guide duct space 117. The air discharged into the guide duct space 117 And is guided to the upper and lower sides of the charging casing 110 to be discharged upward and downward in front of the position where the operator is located.

At this time, when the pressure to be discharged into the guide duct space 117 is relatively large, air is discharged through the upper cover 170, which hermetically closes the upper part of the charging casing 110, It is possible.

The pressure is distributed by the pressure distribution wall body 180 surrounding the door pressure distribution plate 143 of the opening and closing door 140 and the filling space 111 at the front of the explosion of the air cylinder 190, It is possible to protect an operator working in the vicinity of the safe charging compartment 100. [

In addition, when the air is charged, the cooler 160 is operated to cool the heat generated when the air is charged, so that insufficient charging capacity of the air due to the expansion of the air can be prevented.

Therefore, the side air pressure distribution plate 120 and the door pressure distribution plate 143 are pressed against the side where the side and the opening and closing door 140 are located, And the air discharged to the side pressure distribution plate 120 moves along the guide duct space 117 to discharge the air to upper and lower left and right sides of the respiratory high pressure air safe filling compartment 100, 190 can be dispersed up and down on both sides to protect workers located in front of the respiratory high pressure air safe charging compartment 100.

In addition, the safety handle 150 is fixed in such a manner that the straddle plate 151, which is formed relatively wide, extends over the handle hook portion 115 of the charging casing 110, The opening 140 can be prevented from being opened easily.

In addition, the safety handle 150 is fixed by the stopper 155 to prevent the opening and closing door 140 from being released from being fixed when the air cylinder 190 is detonated.

Further, the pressure dispersion hole 143a formed in the side pressure distribution plate 120 may be formed in a cross shape to minimize the outflow of debris.

In addition, the cooler 160 is installed to supply the cold air in the accommodation space 111, thereby making it possible to prevent the air from becoming insufficiently filled with the charge capacity due to the expansion of the air.

In addition, any one of the surfaces surrounding the accommodation space 111 may be formed of the pressure-distributing wall body 180 to prevent the charged casing 110 from being damaged.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100: High-pressure air safety filling box for breathing 110: Charging casing
111: accommodation space 113: control space
115: Hand gripping part 116: Control panel
117: guide duct space 119: frame
120: side pressure distribution plate 121, 143a: pressure dispersion ball
123: pin hole 125: guide ball
130: side finishing plate 140: opening / closing door
141: seat bracket 141a: seat part
143: door pressure distributor plate 145: door hinge shaft
147: guide shaft 149: door damper
150: safety handle 151:
152: handle hinge shaft 153:
155: stopper 157: stopper supporting groove
159: handle damper 160: cooler
170: upper cover 180: pressure distribution wall
181: Grid frame 183: Pressure dispersion network
190: Reservoir

Claims (10)

A charging casing having a receiving space in which an air cylinder is accommodated,
A side pressure distributing plate having a plurality of pressure dispersion holes formed therein for sealing both side surfaces of the charging casing and distributing the pressure when the air chamber accommodated in the accommodation space is exploded,
A side surface finishing plate disposed apart from the side pressure distribution plate so as to form a guide duct space for guiding the air discharged to the pressure distributing hole due to the explosion of the air box up and down the charging casing;
And an opening / closing door rotatably installed in front of the opening of the charging casing, the opening / closing door being provided with a seating bracket for opening / closing the accommodating space,
Wherein the opening / closing door includes a safety handle installed at an upper portion of the opening / closing door so as to be rotatable up and down, and fixing the opening / closing door with the upper portion entirely covered by the handle gripper portion positioned at the opened upper end of the charging casing,
Wherein the safety handle includes a handle damper elastically supporting the safety handle in the opening and closing door so that the safety handle is stretched by an elastic force on the handle gripping part on which the safety handle is extended, And a stopper for preventing rotation of the safety handle on the opening / closing door to prevent the handle from rotating and releasing the engagement,
Wherein the opening / closing door includes a door pressure distribution plate formed between the opening / closing door and the seating bracket and having a plurality of pressure dispersion holes formed therein so as to disperse the pressure when the air chamber explodes,
Wherein the safety handle includes a stalk plate formed in a plate shape so that an end of the handle stalk unit extends, and a grip portion that is spaced apart from the stalk plate and grips the stalk plate to rotate the stalk plate,
Wherein the opening / closing door includes a door support damper elastically supporting the opening / closing door to prevent the door from suddenly opening due to the self weight of the air cylinder in a state where the air cylinder is seated on the seating bracket,
At least one of the surfaces surrounding the accommodation space is formed of a pressure-distributing wall body including a lattice-shaped lattice frame in which air flows, and a mesh-shaped pressure dispersion net attached to the lattice frame to disperse air,
Wherein the pressure dispersion hole is formed in a ten-figure shape so as to reduce the discharge of debris to the pressure dispersion hole when the airtight box explodes,
And a top cover for opening and closing an upper portion of the guide duct space. delete delete delete delete delete delete delete delete The method according to claim 1,
And a cooler for supplying cool air to the accommodation space for cooling the air canister when the air can be charged.

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