DK151508B - DEVICE FOR MAINTENANCE OF A CYLINDER TANK IN A CREDIT FOUNDATION - Google Patents

Description

151508

The invention relates to a device for holding a cylinder tank in a cradle foundation. In the case of cylinder tanks / including weakly tapered tanks, on board vessels for transporting cold loads, e.g. LPG, NH 2 and ethylene in 5 liquid states, as well as LNG, encounter problems related to the compensation for thermal migrations. The bolts used today, with intermediate springs, or pressure pads, have considerable dimensions to absorb the large forces that arise, e.g. buoyancy. Complicated, bulky and expensive spring packages or the like must be arranged to control the thermal migrations.

The present invention has for its object to simplify the restraint devices required by cylinder tanks and slightly tapered tanks located in 15 cradle foundations.

According to the invention, knowledge is taken of the direction of the plane at which points on the cylinder shell will travel at a certain height by thermal contraction / expansion.

20 From Norwegian publication no. 140.730 there is known a special suspension of a ball tank in a skirt by means of bolts. This is a ball tank and thus not a cylinder tank, and there are no interlocking holding means with the possibility of a walk in the thermal contraction expansion plan.

From US Patent No. 3,152,713, it is known to use supporting elements arranged both externally and internally in the tank. Hinge connections are used between the support and the tank wall, and this is not a matter of interlocking retaining means.

Also, there are no contact surfaces attached to the tank which can travel in the thermal contraction expansion plane at the holding height.

United States Patent No. 3,154,212 discloses a placement system for a cylindrical container in the form of a special suspension structure with internal arms extended through the tank wall. Here, too, mold-holding holders have not been used on the tank and the foundation, respectively, where contact surfaces attached to the tank can travel 5 in the thermal contraction-expansion plane at the holding height.

In U.S. Patent No. 3,583,352, suspension systems for cylindrical or spherical tanks are shown. Joint structures are used which allow for contraction 10 and expansion of the tank, but no migration in the thermal contraction expansion plane at the holding height is utilized in connection with a cylindrical tank to be located in a cradle foundation.

US Patent No. 3,842,775 discloses a proposal for the placement of a combined spherical and standing cylinder tank. For holding down the tank, use of matching sloping surfaces has been proposed. However, these are not in the tank's thermal contraction expansion plan.

20 Norwegian patent specification 142.252 discloses a carrier for spherical or cylindrical tanks. For holding down the tank, matching sloping surfaces are proposed, but these are not in the thermal contraction expansion plan of the tank and therefore maintenance of the plant interaction cannot be expected. In addition, no saddle placement (cradle foundation) is used in the carrier.

According to the invention, it is proposed to provide holding means for cradle placement in such a way as to avoid openings or gaps in temperature contraction. On each side of a fixed point at the bottom of the cradle or of the saddle, it is proposed to place means for holding the tank down without openings or spaces.

According to the invention, therefore, there is proposed a device for holding a cylinder tank in a cradle base comprising holding means on the tank and foundation respectively and with mutually interacting abutment surfaces, the abutment surfaces of the tank and the foundation according to the invention being so oriented that the abutment surface of the tank can migrate in the tank-5 contact-expansion plan with maintenance of the plant interaction.

When the abutment surfaces are formed of interconnecting abutment plates which are secured to the tank and foundation respectively, it may be advantageous that the abutment plate attached to the foundation 10 is clamped to the foundation so that a downward pressure on the tank can be provided. faceplate.

The retention means may comprise a bolt rotatably mounted on the tank of an axis parallel to the cradle base axis, and in such a design, the device according to the invention is characterized in that the bolt from its pivotal tank connection in the thermal contraction expansion plane extends downwards. toward the foundation in a direction perpendicular to the thermal contraction expansion plane and is clamped into the foundation via an intermediate consisting of a ball face pan.

By means of the invention, by simple means, significant problems have been solved in connection with the compensation for thermal migration in connection with holding a tank in a cradle foundation. In that the sliding surface lies in the said contraction-expansion plane, it is achieved that contact will always be available regardless of the temperature of the tank. The design with retaining means in the form of bolts is, as stated, made with spacers consisting of a 30 ball surface pan. The ball face pan allows the bolt to pivot slightly so that the point at which the bolt is pivotally attached to the tank can move approximately in the said contraction expansion plane.

Embodiments of the invention are described in more detail below with reference to the accompanying drawings, in which:

FIG. 1 shows a portion of two cylindrical tanks arranged adjacent to each other, which are disposed in each of their cradle foundations and with a holding device according to the invention, and FIG. 2 shows two cylindrical tanks arranged as adjacent to each other in respective cradle foundations, but with a different design of the holding means.

The drawings shown in FIG. 1 and 2 are purely schematic and show only the elements necessary for the continuation of the invention. The two sections are laid through a tanker with a cylindrical tank disposed on each side of the center plane or with transverse cylindrical tanks.

In FIG. 1, the bottom of the ship is denoted by 1, and the deck 15 is denoted by 2, while a central longitudinal bulkhead or transverse bulkhead is denoted by 3. On the bottom of the ship there are arranged cradle foundations 4 and 5, and in each cradle foundation a cylindrical tank is arranged. 6 and 7. The cylindrical tanks are disposed resting in the foundations via 20 shims of a suitable insulating material, e.g. hardwood or composite hardwood / balsa (not shown). Holding devices for the two tanks 6 and 7 shown are the same, and in the following only the holding device for tank 7 will be described in more detail.

On the central long-ship bulkhead, on the ship's side or on the transverse bulkhead bulkhead 3, a bracket section 8. A mounting plate 9 is mounted which extends inclined downwards and outwards with a certain line 10 representing the thermal contraction. expansion plane 30 of the cylindrical shell at retaining height. On the tank 7 there is attached a bracket part 11 with an associated abutment plate 12, which also extends obliquely in the same direction as the plane 10, which abuts the abovementioned abutment plate 9.

By the sliding surface of the abutment plates being in the plane mentioned, it is achieved that contact between the abutment plates will always be independent of the temperature of the tank. The bracket part 8 on the bulkhead or on the ship side may optionally be provided with devices not shown for tightening, 5 so that a downward pressure on the bracket part 12 can be provided.

In FIG. 2 shows a possible alternative where bolts have been used. The bottom of the ship is here denoted by 13, covered by 14 and a bulkhead by 15. The cradle foundations are denoted 10 and 16 and 17 respectively, while the adjacent cylindrical tanks are denoted by 18 and 19. Only the holding device for one tank , namely tank 19, is shown. The holding device for the neighboring tank 18 is, of course, designed in the same way.

Here, too, the tanks rest in cradle foundations via inserts made of suitable insulating materials, e.g. hardwood or composite hardwood / balsa (not shown).

On the bulkhead 15, in the transition to the cradle foundation 17, a bracket portion 20 is secured with a plate 21 forming one half of a ball face pan 22. The other half of the ball face pan is screwed on a bolt 23 which is passed through an opening in the plate. 21, and it is secured to the bolt by means of a nut 24. The bolt 23 extends upwardly toward the tank 19 and is pivotally connected to a bracket portion 25 of the tank 19 by a pivot bolt 26 whose axis extends parallel to the cradle foundation. axis.

The pivot axis represented by the pivot bolt 26 is located in the thermal contraction expansion plane 27. As shown in the section inside the tank 19, there are two bolts 23 with 30 associated ball face pans, one bolt being located on either side of the bracket portion 25. the use of this bolt arrangement avoids the use of the otherwise usual spring packages. During thermal migrations, the bolt 26 will be able to move approximately in the plane 27 so as to compensate for the thermal migrations.

Claims (3)

151508 Device for holding a cylindrical tank in a cradle foundation comprising holding means on the tank and the foundation, respectively, and having mutually interacting 5 abutment surfaces, characterized in that the abutment surfaces (12, 9) on the tank (7) and the foundation (5) are oriented so that the abutment surface (12) of the tank (7) is capable of traveling in the thermal contraction expansion plan of the tank (10) while maintaining the plant interaction. Device according to claim 1, wherein the abutment surfaces are formed by mutually interacting abutment plates attached to the tank and foundation, respectively, characterized in that the abutment plate 15 (9) attached to the foundation is clampably attached to the foundation (5), so that a downward pressure of the abutment plate (12) of the tank (7) can be provided. Device according to claim 1, wherein the holding means comprise a bolt 20 (23) pivotally mounted on the tank (19) pivotable about a axis (26) parallel to the fundamental axis, characterized in that the bolt (23) from its pivotable tank connection (26) in the thermal contraction expansion plane (27) extends toward the foundation (17) in a direction vertical to the thermal contraction expansion plane and is clamped via the insertion of a ball face pan (22) in the foundation (17, 21).