RU2086491C1 - Container for storage and transportation of liquid and gaseous materials - Google Patents

Abstract

FIELD: road, rail and sea transport; storage, transportation and dispensing of aggressive liquid and gaseous materials. SUBSTANCE: container is made in form of barrel consisting of cylindrical shell and two convex bottom plates rigidly connected with protective and support skirts. Shutoff cocks and siphon tubes are installed on one of bottom plates to provided filling and complete draining of material from container. Tubes are interconnected through smaller flanges secured on larger flange. Shutoff cocks are covered by cap fixed by stud. Rims are fitted on cylindrical shell. Container has additionally six fusible safety devices installed on each bottom plate in its convex portion over circumference with diameter not less than 0.71 D where D is diameter of shell. Fusible safety devices are installed at equal distance from each other, three devices on each bottom plate. Safety devices of one bottom plate are displaced relative to those on other bottom plate through angle of 60 degrees. Four holes are made in flanged zones of each protective and support skirt. Holes are arranged over circumference symmetrically relative to each other. Diameters of protective and support skirts are equal to shell diameter. Stud for fixing the cap is made detachable, being provided with strip rigidly secured together with stud. Two holes are made in strip through which strip is connected with larger flange by means of fasteners. Holes made in smaller flanges serve for fixing siphon tubes by means of pins. EFFECT: improved reliability, longevity and safety of storage, and convenience of dispensing and draining of liquid and gaseous materials, prevention of breakage of container in emergency. 6 cl, 4 dwg

Description

 The invention relates to the storage and transportation of corrosive media, in particular to containers intended for storage and transportation of liquid and gaseous media by road, rail and sea transport, as well as for use as consumables.

Known barrels for storage and transportation of liquid and gaseous media, representing a welded vessel of cylindrical shape, made of low alloy steel, which can be transported both in vertical and horizontal position without additional supports [1]
The closest technical solution to the proposed design is a barrel container for transportation and storage of chlorine, which is an all-welded cylindrical vessel with elliptical bottoms. A protective shell and support are welded to the bottoms, the diameter of which is less than the diameter of the container. On the protective shell and support are sling rings designed for unloading and loading operations.

 The process of filling the container and draining it is carried out through shut-off valves and siphon tubes located in the central part on one of the bottoms and interconnected in small flanges, which are mounted on the large flange directly through the tongue-groove and are attached to it by a fastening element.

Valves are covered with a protective cap, which is installed and fixed with a stud, the lower end of which is welded to a large flange [2]
The disadvantage of the existing design is the low reliability of the barrel and the high probability of its rupture in an emergency, as well as the ingress of harmful substances into the atmosphere, which worsens the environment.

 The purpose of the invention is to increase the reliability, durability, safety, operation of the container and the convenience of draining liquid and gaseous media, as well as to protect the container from rupture in an emergency, thereby improving the environment.

 This goal is achieved in that the container for storing and transporting liquid and gaseous media is a barrel consisting of a cylindrical shell and two convex bottoms rigidly connected to the protective and supporting skirts, shut-off valves are installed on one of the bottoms for filling and complete draining siphon tubes interconnected through small flanges that are mounted on a large flange, and the shut-off valves are covered with a cap fixed by a stud, and rims are installed on the cylindrical shell, it is additional ADDITIONAL provided with six fusible safety devices installed on each of three of the bottoms in the convex part of a circle, the diameter of which is not less than 0.71D, where D the diameter of the sleeve, wherein the fusible safety device are arranged at the same distance from each other.

 Fusible safety devices are offset on one bottom relative to another by an angle of 60 degrees.

 In the flanged zone of the protective and supporting skirts, four holes are made, which are located around the circumference and symmetrically relative to each other, while the diameters of the protective and supporting skirts are equal to the diameter of the shell.

 The pin for fixing the cap is removable by supplying it with a strip that is rigidly fixed to the pin, while the hole has two holes through which the strip is connected to the large flange using fasteners.

 In small flanges, holes are additionally made for fixing siphon tubes with pins.

 In FIG. 1 shows a container for storing and transporting liquid and gaseous media, a General view; in FIG. 2, view A and B in FIG. 1; in FIG. 3 - supporting and protective skirt; in FIG. 4 section of the cap with shut-off valves and their connections with small and large flanges.

 The container for storing and transporting liquid and gaseous media (Fig. 1) consists of a cylindrical shell 1 and two convex bottoms 2 and 3, rigidly connected to the protective 4 and supporting 5 skirts, shut-off valves 6 and are installed on the bottom 2 for filling and complete draining siphon tubes 7, interconnected through small flanges 8, which are mounted on a large flange 9, and the shut-off valves 6 are covered with a cap 10 fixed by a pin 11, and rims 12 are installed on the cylindrical shell 1. Three are installed on the convex part of the bottoms 2 and 3 on each bench safety devices 13, located on a circle whose diameter should be at least 0.71D, where D is the diameter of the shell 1, and the fuse safety devices 13 are located at the same distance from each other and are shifted on one bottom 2 relative to the other 3 by an angle of 60 degrees ( figure 2).

 In the flanged zone of the protective 4 and supporting 5 skirts (FIG. 3), four holes 14 are made, which are located symmetrically relative to each other in a circle, while the diameter of the protective 4 and supporting 5 skirts is equal to the diameter of the shell 1.

 The stud 11 for fixing the cap 10 (Fig. 4) is removable by supplying the stud 11 with a strap 15, which is rigidly fixed to the stud 11, while in the strap 15 there are two holes 16 through which the strap 15 is connected to the large flange using fasteners nine.

 In the small flanges 8, holes 17 are made for fixing the siphon tubes 7. Fixing is carried out using pins 18.

 The filling of the container with aggressive media is carried out using an installation that provides automatic control of its filling to a certain level. In this case, the cap 10 is removed from the container together with the pin 11 fixing it, which is attached to it with the upper end using a nut, then they are placed in a horizontal position by means of sling devices for the holes 14 of the protective skirt 4 so that the valves 6 are in a vertical plane one below the other. Bulk is produced through the bottom valve 6 and siphon tube 7, smoothly filling the container. Evacuation of the container before filling and discharge of gases after filling is carried out through the upper valve 6.

 After filling the container with aggressive media, the valves 6 are closed and screwed up with plugs, then the barrels are checked for leaks, and the entire reinforcement is covered with a cap 10, which is installed and fixed using a removable stud 11.

 The filled container with the help of lifting and sling devices is sent for storage or transported.

 Slinging the container in a horizontal position is carried out for the holes 14 of the upper 4 and lower 5 skirts located in the beaded zone.

 When moving the container in an upright position or when moving it from one position to another, carry out for the holes 14 in the protective skirt 4.

 In the horizontal position, the support for the container are two rims 12 located on the cylindrical part of the shell 1.

The proposed design is made in a public manner [3]
The fuses of device 13 are plugs filled with fusible alloy having a melting point of + 74 ^o With [4]
Fusible safety devices 13 installed three on each bottom 2 and 3 are offset on one bottom relative to the other by 60 degrees, which ensures the location of one or more fusible safety devices 13 in the upper part of the container at any position.

 In an emergency, if the container is heated above the permissible temperature, the highest temperature of the container body is possible in the gas phase zone at any position: in the lower part of the container, heat is removed by the liquid phase, which has a significantly higher heat capacity and lower temperature in this zone. Such a circumstance will lead to the triggering of fuse safety devices 13 located in the gas phase zone.

 When the safety device 13 reaches the operating temperature, the fusible safety alloy is melted and the gas escapes.

 The use of fusible safety devices 13 allows, after a part of the liquid and gaseous media to exit the container, to seal it and continue transportation.

 The use of fusible safety devices 13 and their location, increasing the diameter of the skirts 4 and 5 to the diameter of the container with holes 14 made on them, fixing the small flanges 8 and siphon tubes 7 using removable pins 18, as well as the use of a removable stud 11 for fixing and attaching the protective container during storage and transportation of liquid and gaseous media; increase the service life of the container by 20%, that is, by two years; ensure environmental safety by eliminating container rupture and the release of harmful substances into the environment; to ensure the convenience of draining liquid and gaseous media by performing removable studs and fixation of siphon tubes.

Literature
(56) 1. Cylindrical vessels, process vessels and tanks. Catalog, Czechoslovakia, Prague (Firm KPALOVOPOLSKA-BRNO), 1986, pp. 5-13.

 2. TU 26-01-210-83. Barrel container 800 l for liquid chlorine, 1983.

 3. Berliner Yu.I. Balashov Yu.A. Technology of chemical and petroleum engineering. Engineering, 1976, p. 73-78, 85-95,119-135.

 4. Beschastnov M.V. Sokolov V.M. Katz M.I. Accidents in chemical plants and measures to prevent them. M. Chemistry, 1976.

Claims (6)

1. A container for storing and transporting liquid and gaseous media, which is a barrel consisting of a cylindrical shell and two convex bottoms rigidly connected to the protective and supporting skirts, shutoff valves and siphon tubes connected between through small flanges that are mounted on a large flange, and the shut-off valves are covered with a cap fixed by a pin, and rims are installed on the cylindrical shell, characterized in that it is equipped with six fusible safety devices installed three on each of the bottoms in its convex part of the circle, while the fusible safety devices on one bottom are offset relative to the others on the other bottom by an angle of 60 ^o .  2. The container according to claim 1, characterized in that the diameter of the circle along which the fuses are installed is at least 0.71 D, where D is the diameter of the shell, the fuses being located at the same distance from each other.  3. The container according to paragraphs. 1 and 2, characterized in that in the flanged area of the protective and supporting skirts there are four holes that are arranged around the circumference and symmetrically relative to each other, while the diameter of the protective and supporting skirts is equal to the diameter of the shell.  4. The container according to claims 1 to 3, characterized in that the pin for fixing the cap is removable.  5. The container according to claims 1 and 4, characterized in that the pin is provided with a strip that is rigidly fixed to the pin, while two holes are made in the strip through which the strip is connected to the large flange using fasteners.  6. The container according to claims 1 to 5, characterized in that the holes for fixing the siphon tubes with pins are made in the small flanges.

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