KR20100065522A - Air-sac structure enhancing discharge of gas - Google Patents

Abstract

PURPOSE: An envelope structure is provided to prevent the movement of gas due to the attachment of the inner wall of an envelope by forming a gas guide unit inside the envelope such as a balloon, an airship, or a tube. CONSTITUTION: An envelope structure(200) comprises a gas storage unit(110) and a gas guide unit(120). The gas storage unit is formed inside the envelope structure. The gas guide unit is integrated with the inner surface of the envelope and has fixed thickness to prevent inner surfaces of the envelope from contacting each other. The gas flows in the gas guide unit. The gas guide unit comprises multiple discharge holes. A discharge path is formed inside the gas guide unit and guides the gas inside the gas storage unit along to the gas guide unit.

Description

AIR-SAC STRUCTURE ENHANCING DISCHARGE OF GAS}

The present invention relates to a gastric bladder structure that facilitates gas discharge, and in more detail, a gas guide portion is formed on the inner wall of the bladder to facilitate gas filling and discharging. By preventing the damage to the structure while the gas storage to facilitate the discharge of gas to facilitate the air bag structure.

The bladder refers to a bag shape in which gas is stored, and examples thereof include balloons, airships, and tubes.

The bladder is used to inject gas into the gas reservoir, and then discharge the gas during storage. When the bladder is small in size, the bladder is partially folded from the outside of the bladder or extruded by applying an external pressure toward the inflow / outlet.

However, as described above, the method of applying pressure from the outside may damage the structure mounted on the inside and outside of the bladder, and when the size of the bladder is large or complicated in shape, it is difficult to discharge the gas by the above method. There is this.

In addition, when the inner wall of the bladder is in contact with each other as the pressure inside the bladder is lowered in the conventional discharge process, the gas flow to the inlet and the inlet is prevented, and it is difficult to separate the inner wall of the bladder to form a gas passage from the outside. There is a problem that is very degraded.

In particular, when the size of the air sacs is large, the gas is discharged by connecting the suction device to the inlet and outlet, and the inner wall of the air sac is in contact with each other in a portion adjacent to the inlet and outlet, which makes it more difficult to discharge the gas.

The present invention has been made to solve the problems described above, an object of the present invention is to provide a gas bladder structure easy to discharge the gas to facilitate the inlet and discharge of the gas.

More specifically, an object of the present invention is to integrally form the gas guide portion connected to the inflow and outflow portion on the inner wall of the air sac to prevent the inner wall surfaces from being in close contact with each other and to form a gas passageway so that the gas of the gas storage portion can be removed without damaging the structure. It is to provide an air bladder structure that can be easily discharged gas.

In the air bladder structure 100 of the present invention, the air bladder structure 100 has a predetermined thickness in the air bladder structure 200 in which a gas storage unit 110 is formed. Flowable gas guide 120 is characterized in that formed integrally.

In addition, the gas guide unit 120 has a plurality of discharge holes 123 or the discharge passage 124 is formed therein so that the gas inside the gas storage unit 110 is the gas guide 120 Characterized in that guided along.

In addition, the gas guide unit 120 is characterized in that it is connected to the outlet inlet 130, the hollow to supply or discharge the gas to the gas storage unit 110 of the air sac.

In addition, the gas guide part 120 includes a main guide part 121 formed radially around the outflow part 130; And an auxiliary guide part 122 branched from the main guide part 121 and formed in an area having a large distance between the main guide parts 121. And is formed to include a plurality of protrusions.

In addition, the gas guide portion 120 is characterized in that the material is made of a pressure maintained at a predetermined pressure at a predetermined pressure or more at atmospheric pressure.

Accordingly, the gas bladder structure of the present invention is easy to discharge the gas by forming a gas guide portion inside the bladder, such as balloons, airships and tubes, the inner wall of the bladder is in close contact with each other to prevent the movement of the gas to the gas flow in and out There is an advantage to facilitate.

In addition, the air bladder structure of the present invention can be easily discharged gas using a suction device with a minimum number of people, there is an advantage to prevent damage to the structure.

Hereinafter, with reference to the accompanying drawings an easy-gassing bladder structure 200 of the present invention having the features as described above will be described in detail.

1 is a partial cutaway perspective view of a gas bladder structure 200 easy to discharge gas according to the present invention, Figures 2 and 3 is a longitudinal cross-sectional view and cross-sectional view of the gas bladder structure 200 easy to discharge.

Gas bladder structure 200 is easy to discharge the gas of the present invention in the bladder structure 200, the gas storage unit 110 is formed therein, characterized in that integrally formed in the gas guide portion 120 on the inner surface of the bladder do.

The gas guide portion 120 is formed on the inner surface of the bladder is configured to have a predetermined thickness so that the inner surface of the bladder does not touch each other in the process of gas discharge, the gas guide portion 120 is a gas even if both sides are in contact with the inner surface of the bladder Is flowable so that the gas of the entire region of the gas storage unit 110 is easily discharged.

More specifically, FIG. 4 is a view illustrating a gas discharge of the gas bladder structure 200 that is easy to discharge gas according to the present invention. As shown in FIG. The gas 200 has an advantage that a gas flowable space is formed by the gas guide unit 120 so that gas is easily discharged.

The gas guide part 120 is connected to an inlet / out part 130 for supplying or discharging gas to the gas storage part 110 to facilitate the movement of gas, and a plurality of discharge holes therein to allow air to move. 123 may be formed, or the discharge passage 124 may be formed long therein.

Figure 5 is a view showing a gas guide portion 120 of the gas bladder structure 200 easy to discharge the gas according to the present invention, the gas guide portion 120 shown in Figure 5 is one side of the bladder inner wall surface Attached and formed integrally.

More specifically, Figure 5 (a) is an example in which the discharge passage 124 is formed long inside, a plurality of discharge holes 123 are formed on the surface, Figure 5 (b) is a sponge of semi-circular cross section 5 (c) shows an example in which a discharge path 124 is formed between the protrusions in the form of a band in which both end portions protrude.

Gas bag structure 200 is easy to discharge the gas of the present invention, the gas guide portion 120 is a gas flow is possible, maintain a certain shape at atmospheric pressure, and formed of a material that is compressed at a predetermined pressure or more to store the bladder Make it easy.

When the gas of the gas storage unit 110 is discharged because the upper side and the lower side is in close contact, the gas guide 120 may be formed only in the lower portion.

That is, the air sacs of the lower part may be in contact with each other with the upper part of the air sacs as the gas is discharged, but the gas guide part 120 formed in the parts may have an air outlet hole 123 or the inner wall of the air sac is in contact with both sides. The discharge path 124 is formed therein to allow the gas to move smoothly.

At this time, the inflow and outflow unit 130 is formed on the lower side can be easily connected to the suction means 200 for sucking the gas in the gas storage unit 110, to facilitate the gas discharge.

The gas guide part 120 may be formed in various ways. The main guide part 121 and the main eye which are radially formed around the outlet part 130 so that gas is easily discharged through the outlet part 130. It is formed including an auxiliary guide portion (122) branched from the inside (121).

That is, the main guide portion 121 is configured to have a large flow to guide the gas directly connected to the inlet and outlet portion 130, the auxiliary guide portion 122 is a foreign word of the branch in the main guide portion 121 It is a structure formed in the area | region where the distance between the inside 121 is wide.

Therefore, the gas bladder structure 200 of the present invention can easily have a bladder having various shapes and sizes as the gas guide part 120 including the main guide part 121 and the auxiliary guide part 122 is integrally formed. It can be appropriately applied to the structure 200, there is an advantage that can smoothly discharge the gas while preventing damage to the separate components formed inside and outside the bladder.

In addition, the present invention has the advantage that the gas filling to the gas storage unit 110 as well as the discharge of the gas as described above can be easily made.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1 is a partial cutaway perspective view of the gas bladder structure easy to discharge according to the present invention.

2 and 3 are a longitudinal cross-sectional view and a cross-sectional view of the air bladder structure easy to exhaust the gas of FIG.

Figure 4 is a schematic view of the use of the gas discharge structure easy to escape in accordance with the present invention.

5 is a view showing a gas guide of the air bladder structure easy to discharge gas according to the present invention.

** Description of the symbols for the main parts of the drawings **

100: bladder structure

110: gas storage unit

120: gas guide

121: main guide 122: auxiliary guide

123: discharge hole 124: discharge path

130: outflow

200: suction device

Claims (5)

In the bladder structure 200 in which the gas storage unit 110 is formed, Gas bladder structure easy to discharge the gas, characterized in that the gas guide portion 120 is formed integrally with a certain thickness so that the inner surface of the bladder sac does not touch each other. The method of claim 1, The gas guide part 120 has a plurality of discharge holes 123 or a discharge path 124 is formed therein so that the gas inside the gas storage part 110 along the gas guide part 120. A gas bladder structure that is easy to discharge gas, characterized in that guided. The method of claim 2, The gas guide unit 120 is easy to discharge gas, characterized in that connected to the inlet and outlet hollow 130 to supply or discharge the gas to the gas storage unit 110 of the bladder. The method of claim 3, The gas guide part 120 includes a main guide part 121 formed radially about the outflow part 130; And an auxiliary guide part 122 branched from the main guide part 121 and formed in an area having a large distance between the main guide parts 121. Air bag easy to discharge the gas, characterized in that formed in the air bladder structure. The method according to any one of claims 1 to 4, The gas guide portion 120 is easy to discharge gas, characterized in that the gas is made of a material that maintains a predetermined shape at atmospheric pressure and compressed at a predetermined pressure or more.

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