JP2006292098A - Gas holder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas holder having a gas filling portion composed of a bag body of coated fabric or sheet, not limited in its installation area with respect to a capacity, and determining gas accumulation quantity by direct reading, and being easily manufactured. <P>SOLUTION: The gas filling portion is composed of the bag body of rubber-coated cloth, plastic-coated cloth, rubber sheet or plastic sheet, and has the cylindrical column shape at its lower portion and the right circular truncated conical shape at its upper portion when it is completely filled with a gas, a connecting portion of the cylindrical column portion and the right circular truncated conical portion is supported by a frame, and a gas inlet and a gas outlet are formed on a lower end portion of the cylindrical column portion. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a gas holder. More specifically, in the present invention, the gas filling portion is formed of a stretched cloth or a sheet bag body, and the installation area is less restricted with respect to the capacity. It can be related to gas holder.

Spherical gas holders are widely used to store city gas, industrial gas such as hydrogen gas and oxygen gas. The gas holder used for such a purpose is large, and high-strength steel is used as the material, and the service life is expected to be long. On the other hand, digestion gas generated from sewage treatment plants and barns is relatively small compared to city gas, industrial gas, etc., and long-term durability is often not required for storage facilities. . Gas holders made of rubber cloth or plastic cloth have been developed as gas holders for gases that have a small amount of handling and a short equipment renewal period.
FIG. 11 is a side view of an example of a conventional gas holder made of rubberized cloth. In the gas holder of this example, a bag body 16 having a bellows structure made of rubber or plastic is installed on a base plate 18 in a frame 17. A gas inlet 19 and a gas outlet 20 are provided in the lower part of the bag body through the base plate. A top plate 21 is placed on the bag body, and a weight 22 is further placed on the top plate.
In the gas holder of this example, when the gas inlet is closed and gas is fed from the gas inlet, the bellows-structure rubber or plastic bag is inflated, and the top plate with the weight is raised. When the gas inlet is closed and the gas outlet is opened, the gas inside the bag flows out at a pressure given by the weight. The pressure inside the bag can be adjusted by the weight of the weight, and the gas holder having this structure can withstand an internal pressure of about 2 kPa. The gas holder in this example requires almost no foundation work, and since the bag is folded at the start of use, it is not necessary to replace the gas inside. Since the bellows-structured rubberized plastic cloth or plastic plastic cloth bag is folded, the frame is disassembled and transported, and assembled and used immediately on site, it can be installed simply, easily and inexpensively. However, manufacturing of a bellows-structured rubberized cloth or plastic-coated cloth body takes a lot of labor and is not easy to repair, so a simpler gas holder has been demanded.
According to such a request, the applicant of the present invention has a gas filling portion made of a rubber or plastic bag, which is substantially spherical when fully filled with gas, and the equator is supported by a frame, A spherical gas holder with a gas inlet and a gas outlet at the lower end was proposed. FIG. 12 is a side view of one embodiment of the proposed spherical gas holder. This figure shows a state where the bag is completely filled with gas. In the spherical gas holder of this aspect, the gas filling portion is formed of a rubber-made cloth or plastic-made cloth bag body 23. When the gas is completely filled, the bag body is substantially spherical, and the frame made up of the pedestal 24 and the ring 25 is used. The equator of the bag is supported. The bag is fixed to the ring by a belt (not shown) provided at the equator of the substantially spherical bag. A gas inlet 26 and a gas outlet 27 are provided at the lower end of the bag body.
A substantially spherical bag body can be manufactured more easily than a bellows structure bag body, and a frame supporting a substantially spherical bag body is simpler than a frame supporting a bellows structure bag body. This spherical gas holder can be economically manufactured and installed. However, since the capacity of the spherical gas holder is almost uniquely determined by the installation area, and the degree of freedom with respect to the capacity is small, a gas holder made of rubberized cloth or the like that has a limited capacity depending on the installation area has been required. It was.

  In the present invention, the gas filling portion is formed of a stretched cloth or a sheet bag, and the installation area is not limited in capacity, the gas storage amount can be directly read and determined, and can be easily manufactured. It was made for the purpose of providing a gas holder.

As a result of intensive studies to solve the above-mentioned problems, the present inventor, as a result, in the gas holder in which the gas filling portion is formed of a draw cloth or a sheet bag body, the shape of the bag body when the gas is completely filled It has been found that by limiting the installation area to the capacity of the gas holder, the bag body can be smoothly deformed as the gas storage volume increases and decreases by making the cylinder a cylindrical shape and the upper part a right truncated cone shape. The present invention has been completed based on the findings.
That is, the present invention
(1) The gas filling part is made of rubberized cloth, plastic cloth, rubber sheet or plastic sheet bag, and when fully filled with gas, the lower part has a cylindrical shape and the upper part has a right frustoconical shape. A gas holder, wherein the connection part of the truncated cone part is supported by a frame, and has a gas inlet and a gas outlet at the lower end of the cylindrical part;
(2) The gas holder according to (1), wherein a weight is attached to the upper surface of the right truncated cone part,
(3) The gas holder according to (2), wherein the weight is an annular weight having a center equal to the center of the upper surface of the right truncated cone part.
(4) The gas holder according to (1), wherein a difference obtained by subtracting the diameter of the upper surface from the diameter of the lower surface of the right truncated cone is 500 mm or more,
(5) The gas holder according to (1), wherein the difference obtained by subtracting the height of the right circular truncated cone from the height of the cylindrical shape is 50 to 300 mm, and
(6) The wire is attached to the upper surface of the right truncated cone part, the wire is lowered vertically via the pulley, and the gas storage amount in the bag body is determined based on the position of the wire. Gas holder,
Is to provide.
Furthermore, as a preferred embodiment of the present invention,
(7) The gas holder according to (1), wherein the diameter of the columnar shape is equal to the diameter of the bottom surface of the right truncated cone shape;
(8) The gas holder according to (3), wherein one of the annular weights has a diameter substantially equal to the diameter of the upper surface of the right truncated cone part.
Can be mentioned.

  In the gas holder of the present invention, when the gas is completely filled, the lower part has a cylindrical shape and the upper part has a right circular truncated cone shape. Therefore, by selecting the heights of the cylindrical and right circular truncated cone parts, It is possible to adjust the internal volume. Moreover, since the lower part is cylindrical and the upper part is a right circular truncated cone, when the upper part moves according to the change of the gas storage amount, the lower part and the upper part move smoothly and move up and down smoothly. By attaching a weight to the upper surface of the right truncated cone shape, the vertical movement can be made smoother and the internal pressure of the gas holder can be controlled. Furthermore, the amount of gas stored in the bag can be determined based on the position of the wire by attaching a wire to the upper surface of the right circular truncated cone part and hanging it vertically through the pulley.

In the gas holder of the present invention, the gas filling portion is made of a rubberized cloth, a plastic cloth, a rubber sheet or a plastic sheet bag, and when the gas is completely filled, the lower part has a cylindrical shape and the upper part has a right truncated cone shape. A connecting portion between the cylindrical portion and the right truncated cone portion is supported by the frame, and has a gas inlet and a gas outlet at the lower end portion of the cylindrical portion.
FIG. 1 is a side view of one embodiment of the gas holder of the present invention. This figure shows a state where the bag is completely filled with gas. FIG. 2 is a top view of the gas holder of the embodiment shown in FIG. In the gas holder according to this aspect, the gas filling portion is formed of a rubber-made cloth, a plastic-made cloth, a rubber sheet or a plastic sheet bag body 1, the lower part of the bag body is a cylindrical part 2, and the upper part is a right circular truncated cone part 3. Yes. The bag body is supported by a frame made up of the pedestal 4 and the ring 5, and the bag body is fixed to the ring by a belt (not shown) provided at a connecting portion between the columnar portion and the right circular truncated cone portion. A gas inlet 6 and a gas outlet 7 are provided at the lower end of the cylindrical portion.
In the gas holder according to the present invention, when the bag body is not filled with gas, the right circular truncated cone portion above the bag body falls inward. When the gas inlet is closed and the gas is fed from the gas inlet, the right circular cone part of the bag gradually rises, and when the gas is completely filled, the shape of the bag is the lower right circular cone. The trapezoid is placed. When the gas inlet is closed and the gas outlet is opened, the right truncated cone part above the bag body is lowered, and the gas is sent out from the gas outlet.

Since the bag body comprising the cylindrical portion and the right circular truncated cone portion of the gas holder of the present invention has a simpler shape than the substantially spherical bag body, it can be easily manufactured and installed. Moreover, even if it is a fixed installation area, the internal volume of a gas filling part can be increased by making the height of a column shape and a right truncated cone shape high.
FIG. 3 is a cross-sectional view showing a state when the gas holder of the embodiment shown in FIG. 1 is completely filled with gas. FIG. 4 is a cross-sectional view showing a state when the gas in the gas holder of the embodiment shown in FIG. When the gas is discharged to the maximum extent, the right circular truncated cone part 3 falls inside the cylindrical part 2. The difference between the maximum value and the minimum value of the gas storage amount of the gas holder of this embodiment, that is, the effective capacity V is twice the volume of the right truncated cone, and the diameter of the lower surface of the right truncated cone is d ₁ and the diameter of the upper surface is d. _{2. If} the height is h, V = πh (d ₁ ² + d ₁ d ₂ + d ₂ ² ) / 6. Therefore, even if the diameter d ₁ of the lower surface of the right circular truncated cone is limited by the installation area of the gas holder, the effective capacity of the gas holder can be increased by selecting the height h of the right circular truncated cone. Gas holder embodiments shown in FIGS. 1-4, has an effective capacity of 1.6 times as compared with the gas holder spherical diameter d _1.
The gas holder of the present invention can be provided with a weight on the upper surface of the right truncated cone part. FIG. 5 is a side view of another embodiment of the gas holder of the present invention. This figure shows a state where the bag is completely filled with gas. The gas holder of this aspect is provided with a weight 9 on the upper surface 8 of the right truncated cone part. By providing a weight on the upper surface of the right truncated cone part and adjusting its weight, the inside of the bag filled with gas can be pressurized to a predetermined pressure. The gas holder of the present invention can keep the pressure inside the bag at about 300 Pa.

  In the gas holder of the present invention, an annular weight having a center equal to the center of the upper surface can be attached to the upper surface of the right circular truncated cone part. Moreover, it is preferable that one of the annular weights has a diameter substantially equal to the upper surface of the right truncated cone part. In the gas holder of the present invention, in addition to an annular weight having a diameter substantially equal to the diameter of the upper surface of the right truncated cone part, another annular weight can be attached. FIG. 6 is a cross-sectional view of another embodiment of the gas holder of the present invention, showing a state when the gas is completely filled. FIG. 7 is a top view of the gas holder of the embodiment shown in FIG. In the gas holder of this aspect, an annular weight 10 having a diameter substantially equal to the diameter of the upper surface of the right circular truncated cone part and an annular weight 11 having a smaller diameter are formed on the upper surface 8 of the right circular truncated cone part. It is attached. By attaching an annular weight having a diameter approximately equal to the diameter of the upper surface of the right circular truncated cone part to the upper surface of the right circular truncated cone part, the upper surface of the right circular truncated cone part is not made uneven. Can be moved up and down in a state where the center of the upper surface of the right circular truncated cone part exists on the central axis of the bag. By adjusting the number of annular weights and the total weight thereof, the inside of the bag filled with gas can be pressurized to a predetermined pressure. FIG. 8 is a cross-sectional view showing a state when the gas in the gas holder of the embodiment shown in FIG.

In the gas holder of the present invention, it is preferable that the diameter of the columnar shape is equal to the diameter of the lower surface of the right truncated cone shape. Moreover, it is preferable that the difference which reduced the diameter of the upper surface from the diameter of the lower surface of a right truncated cone part is 500 mm or more. Furthermore, the difference obtained by subtracting the height of the right truncated cone from the height of the columnar shape is preferably 50 to 300 mm, and more preferably 100 to 200 mm.
FIG. 9 is an explanatory view of the dimensions of another aspect of the gas holder of the present invention. Gas holder of the present embodiment, the diameter d ₁ of the lower surface of the diameter D and the frustoconical portion of the cylindrical portion is equal. By making the diameter D of the cylindrical part equal to the diameter d ₁ of the lower surface of the right circular truncated cone part, it becomes possible to connect the cylindrical part and the right circular truncated cone part without any step, and a gas holder with a simple structure and a large gas filling capacity. It can be.
The difference obtained by subtracting the diameter d ₂ of the upper surface from the diameter d ₁ of the lower surface of the right circular truncated cone part is set to 500 mm or more, whereby 250 mm or more is provided between the outer peripheral portion of the upper surface 8 of the right circular truncated cone part and the inner surface of the cylindrical part 2. The right circular truncated cone part can smoothly move up and down without causing a large resistance between the outer peripheral part of the upper surface of the circular truncated cone part and the inner surface of the cylindrical part.
Even if the gas storage amount is minimized by setting the difference obtained by subtracting the height h of the right circular truncated cone from 50 mm to 300 mm, the upper surface 8 of the right circular truncated cone portion is the gas inlet 6. Alternatively, the gas can be smoothly introduced and taken out without obstructing the gas outlet 7. If the difference between the height of the cylindrical shape and the height of the right circular truncated cone is less than 50 mm, the upper surface of the right circular truncated cone part obstructs the gas inlet or the gas outlet when the gas storage amount is minimized. There is a risk of becoming. If the difference obtained by subtracting the height of the right circular truncated cone from the height of the cylindrical shape exceeds 300 mm, the effective capacity of the gas holder may become too small.

  The gas holder of the present invention can attach a wire to the upper surface of the right circular truncated cone part, lower the wire vertically via a pulley, and determine the amount of gas stored in the bag based on the position of the wire. FIG. 10 is a side view of another embodiment of the gas holder of the present invention. This figure shows the state during gas discharge of the gas holder. In the gas holder of this aspect, the wire 12 is attached to the upper surface of the right truncated cone part 3, and the wire is lowered vertically via the pulley 13. In the gas holder in which the annular weight 11 is attached to the upper surface of the right circular truncated cone of this aspect, the upper surface of the right circular truncated cone portion keeps a horizontal plane during gas discharge. A one-to-one relationship is established with the internal volume. Therefore, a graph showing the relationship between the position of the upper surface of the right circular truncated cone part and the inner volume of the bag body can be prepared in advance, and the amount of gas stored in the gas holder can be read from the graph, or the end of the wire The stored amount of gas can also be read directly with the scale of the scale 15 provided in the range in which 14 is moved as the internal volume of the bag. Furthermore, the gas holder of this aspect can attach a limit switch etc. to a wire and can control automatically inflow and discharge | emission of gas according to the internal volume of a bag body.

There is no particular limitation on the capacity of the gas holder of the present invention is preferably a 1～300M ^3, and more preferably 5 to 200 m ^3. Since general-purpose general-purpose products are commercially available for gas holders with a capacity of less than 1 m ³ , commercial products can be purchased and used economically. If the capacity exceeds 300 m ³ , the strength of the rubberized cloth, plastic cloth, rubber sheet, or plastic sheet is insufficient, and therefore it is preferable to produce a metal gas holder depending on the pressure.
There is no restriction | limiting in particular in the material of the base fabric of the rubber | gum pulling cloth used for this invention, or a plastics pulling cloth, For example, a cotton fabric, a polyester fabric, a polyamide fabric etc. can be mentioned. There is no particular limitation on the rubber material of the rubberized cloth or rubber sheet used in the present invention. For example, natural rubber, isoprene rubber, styrene butadiene rubber, butadiene rubber, chloroprene rubber, nitrile butadiene rubber, hydrogenated nitrile butadiene rubber, EPDM elastomer And so on. Among these, styrene butadiene rubber, chloroprene rubber, nitrile butadiene rubber and EPDM elastomer can be suitably used. There is no restriction | limiting in particular in the plastics material of the plastic cloth used for this invention, or a plastic sheet, For example, a polyurethane, a polyvinyl chloride, etc. can be mentioned. Among these, polyurethane can be preferably used.

The rubber or plastic fabric used in the present invention is preferably free of abnormalities with no load at 500 times and more preferably free of abnormalities with no load at 1,000 times in the paddle test. If an abnormality occurs at 500 times with no load, the durability as a gas holder may be insufficient.
The rubber cloth used in the present invention, the plastic cloth, the rubber sheet or the plastic sheet is preferably 5.0 cm ³ / (m ² · s · Pa) or less in a gas permeation test using a stored gas, It is more preferably 3.0 cm ³ / (m ² · s · Pa) or less, and further preferably 1.0 cm ³ / (m ² · s · Pa) or less. When the result of the gas permeation test exceeds 5.0 cm ³ / (m ² · s · Pa), there is a possibility that the leakage of gas from the gas holder may reach a level that cannot be ignored.
A rubber test of a rubber-coated cloth or a plastic-coated cloth can be performed using a Scott-type paddle tester according to JIS K 6404-6. The gas permeation test of rubber or plastic fabric can be performed according to JIS K 6404-10 by test method B1 using a Cambridge type gas permeation test apparatus or test method B2 using a manometer type gas permeation tester. The gas permeation test of a rubber sheet or a plastic sheet can be performed by A method using a gas permeability measuring device (differential pressure method) according to JIS K 7126.

  In the gas holder of the present invention, when the gas is completely filled, the lower part has a cylindrical shape and the upper part has a right circular truncated cone shape. Therefore, by selecting the heights of the cylindrical and right circular truncated cone parts, It is possible to adjust the internal volume. Moreover, since the lower part is cylindrical and the upper part is a right circular truncated cone, when the upper part moves according to the change of the gas storage amount, the lower part and the upper part move smoothly and move up and down smoothly. By attaching a weight to the upper surface of the right truncated cone shape, the vertical movement can be made smoother and the internal pressure of the gas holder can be controlled. Furthermore, the amount of gas stored in the bag can be determined based on the position of the wire by attaching the wire to the upper surface of the right truncated cone and lowering it vertically via the pulley.

It is a side view of one mode of a gas holder of the present invention. It is a top view of the gas holder shown in FIG. It is sectional drawing of the gas holder shown in FIG. It is sectional drawing of the gas holder shown in FIG. It is a side view of the other aspect of the gas holder of this invention. It is sectional drawing of the other aspect of the gas holder of this invention. It is a top view of the gas holder shown in FIG. It is sectional drawing of the gas holder shown in FIG. It is dimension explanatory drawing of the other aspect of the gas holder of this invention. It is a side view of the other aspect of the gas holder of this invention. It is a side view of an example of the gas holder made from the conventional rubberized cloth. It is a side view of one mode of a spherical gas holder.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Bag body 2 Cylindrical part 3 Straight cone part 4 Leg column 5 Ring 6 Gas inlet 7 Gas outlet 8 Upper face of right cone part 9 Weight 10 Circular weight 11 Circular weight 12 Wire 13 Pulley 14 Wire Terminal 15 Scale scale 16 Bag body 17 Frame 18 Base plate 19 Gas inlet 20 Gas outlet 21 Top plate 22 Weight 23 Bag body 24 Leg column 25 Ring 26 Gas inlet 27 Gas outlet

Claims (6)

  The gas filling part consists of a rubberized cloth, plastic cloth, rubber sheet or plastic sheet bag, and when fully filled with gas, the lower part forms a cylindrical shape and the upper part forms a right circular truncated cone. The gas holder is supported by a frame and has a gas inlet and a gas outlet at the lower end of the cylindrical portion.   The gas holder according to claim 1, wherein a weight is attached to an upper surface of the right truncated cone part.   The gas holder according to claim 2, wherein the weight is an annular weight having a center equal to the center of the upper surface of the right truncated cone part.   The gas holder according to claim 1, wherein a difference obtained by subtracting the diameter of the upper surface from the diameter of the lower surface of the right truncated cone is 500 mm or more.   The gas holder according to claim 1, wherein a difference obtained by subtracting the height of the right truncated cone from the height of the cylindrical shape is 50 to 300 mm.   The gas holder according to claim 1, wherein a wire is attached to an upper surface of the right truncated cone part, the wire is vertically lowered via a pulley, and a gas storage amount in the bag body is determined based on a position of the wire.

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