RU2096241C1 - Ship's bottom floor - Google Patents

Abstract

FIELD: shipbuilding; hulls of tankers and chemicals carriers. SUBSTANCE: ship's bottom floor includes bottom and inner bottom and members connecting them together; provision is made for additional plating without stiffeners which is made from plastic material at smooth relative ultimate elongation no less than 8 percent, for example from steel. Connection of bottom with transverse or longitudinal bullheads or sides is watertight. Deformability of additional plating may be increased due to corrugations. Additional protective member made from watertight elastic material, for example rubber may be introduced between inner bottom and additional plating to enhance watertightness. This protective member is connected with transverse or longitudinal bulkheads bounding the compartment or with ship's sides. EFFECT: high safety of transportation of toxic liquids in case of damage to bottom. 3 cl, 3 dwg

Description

 The invention relates to the field of shipbuilding and relates to the design of hulls of tankers, chemical carriers and other vessels intended for the transport of environmentally hazardous liquids.

 A double hull vessel, the double bottom of which has no transverse connections and stiffeners, is known as the closest analogue, and the outer bottom and inner bottom are connected by vertical or inclined plates oriented along the vessel (US Pat. No. 4,573,422, class B 63 B 3 / 62, 1986).

 The invention is aimed at solving the problem of creating a bottom floor of a vessel that provides increased safety during the transportation of environmentally harmful liquids in case of navigational accidents such as aground or pitfall by providing increased deformation ability without changing the traditional design of the double bottom and without a noticeable increase in metal consumption.

 This problem is solved by dividing the functions to ensure normal operation and constructive protection against spillage during landing, for example, on a stone.

 To do this, in the well-known bottom floor of the vessel, including the outer bottom, inner bottom and the flora and stringers connecting them, an additional flooring without reinforcing stiffeners is installed over the inner bottom, made of plastic material with uniform elongation at break of at least 8%, for example, steel, water tightly connected to the transverse and longitudinal bulkheads or sides of the vessel, that is, fixed only along the supporting contour of the bottom floor.

 Due to the absence of reinforcing stiffeners, stress concentration and additional deformation from bending of the ribs are eliminated. The connection of the additional flooring only with the supporting contour of the overlap ensures its deformation according to the membrane scheme and the distribution of chain deformations over the entire area of the flooring. In this case, a further increase in the deformation ability can be achieved by introducing an additional corrugation deck (for example, corrugated) into the design, and to ensure water resistance, an additional protective element made of a waterproof elastic material (for example, rubber) can be rigidly inserted between the inner bottom and the additional floor connected with the transverse and longitudinal bulkheads (sides) bounding the compartment.

 In FIG. 1 shows a General view of the bottom floor in cross section; in FIG. 2 diagram of the deformation of the bottom floor when landing on a pitfall; in FIG. 3 deformed bottom floor after removing the vessel from the stone.

 The bottom floor consists (Fig. 1) of the outer bottom 1 and the inner bottom 2, connected by stringers 3 and floras 4. On top of the inner bottom 2 there is an additional flooring 5, watertightly connected to the cargo compartment bounding the cargo compartment 6. In order to increase the deformation capacity of the additional flooring 5 in the places of its connection with the bulkheads 6, wavy corrugations 7 are made. To prevent the occurrence of stress concentration, which is dangerous from the point of view of crack formation, from the opposite side of the bulkhead 6 is installed 8 a longitudinal rib.

 When a pitfall 9 is introduced into the bottom floor in the event of a navigation accident (Fig. 2), the bottom 1, stringers 3, floras 4 and inner bottom 2 are destroyed, while the additional flooring 5 due to its increased deformation ability due to the absence of reinforcing beams and corrugations 7 stretched without breaking.

 After removing the vessel from the pitfall (Fig. 3), due to the integrity of the additional flooring 5, no outflow of cargo occurs, since the additional flooring 5 covers the hole in the inner bottom 2 and withstands the pressure difference of the transported cargo 10 and the sea water 11.

 As shown by the calculation analysis, the use of the claimed invention allows to prevent the outflow of cargo in the case of landing on a stone with a depth of penetration of the pitfall into the floor slab 2-3 times greater than is possible for a floor slab of a traditional design.

 Since the additional flooring also reduces the load on the inner bottom and isolates it from the corrosive effects of the transported cargo, if the additional flooring is installed, the thickness of the inner bottom can be reduced. Due to this, the use of the claimed invention does not lead to an excessive increase in the metal consumption of hull structures and practically does not reduce the operational qualities of the vessel.

Claims (3)

 1. The bottom floor of the vessel, including the outer bottom, inner bottom and stringers and flora connecting them, characterized in that an additional flooring without reinforcing stiffeners is installed on top of the bottom, made of plastic material with uniform elongation at break of at least 8%, for example, steel, water tightly connected to transverse and longitudinal bulkheads or sides of the vessel.  2. The overlap according to claim 1, characterized in that the corrugations are made on the additional flooring of the overlap.  3. The ceiling according to claim 1 or 2, characterized in that between the inner bottom and the additional flooring an additional protective element is made of a waterproof elastic material, for example, rubber, connected to transverse and longitudinal bulkheads or sides of the vessel.

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