RU2021161C1 - Stationary anchor for slit-clay-sand soils - Google Patents

Abstract

FIELD: shipbuilding. SUBSTANCE: stationary anchor 1 is manufactured in the form of parallelepiped with nose cantilever protrusion 2 and is provided with rack 3 in its rear bottom part mounted at certain angle to vertical plane with inclination towards nose cantilever protrusion. Each tooth 6 of rack 3 is coupled with base 5 by means of knee 4. EFFECT: improved holding force. 3 dwg

Description

 The invention relates to water transport, in particular to anchors, the holding force of which is due mainly to their weight and design.

 Known design of the anchor (US patent N 4290381, 1981) to hold the platform, which is made in the form of a parallelepiped with a nasal cantilevered protrusion. A disadvantage of the known design is that the anchor works on long chains (links), perceives only horizontal load.

 Also known is the design of a gravitational anchor for hard soils (prototype), containing a trapezoidal frame with a nose rib having anchor teeth, a lever for attaching the crossbar and a counterweight located in the rear of the frame. The mentioned anchor design is designed to hold a floating object on the surface of the water area in the presence of long chains (ropes) without taking into account the vertical load and the requirements for ensuring minimum pitching facilities, which is a drawback in relation to operating conditions of flooded inhabited structures (objects).

 For underwater amusement and entertainment pavilions, as well as underwater observation galleries where people are located, a decrease in the pitching phenomenon is very significant (for the human body to perceive it) and is possible when a number of measures are taken and, in particular, when applying short chains or hard links between the armature and an object located at shallow depths and a small distance relative to each other. Such a mutual arrangement leads to the appearance of a vertical component of the force from the influence of the positive buoyancy of the object, forcing the anchor to work on separation from the ground.

 This goal is achieved in that the anchor, made in the form of a parallelepiped with a nasal cantilevered protrusion, in the bottom, aft part of it is equipped with a gear rack mounted at an angle to the vertical plane with an inclination towards the nasal protrusion, while each tooth is supported by a knee connecting it with base in anchor body.

 In FIG. 1 is a location diagram of a submerged object "A" held by stationary anchors; in FIG. 2 - structural diagram of the anchor; in FIG. 3 - a gear rack with the basis and knights.

To absorb the vertical load P _{b, the} anchor 1 (Fig. 2) is equipped with a known design - bow console 2 and aft gear rack 3, inclined mounted to the side of the console. By welding, the rail is attached to the base 5, embedded in the body of the anchor, and in addition, each of its teeth 6 with the knee 4 is welded to the base.

 A stationary anchor (s) designed to hold an object having positive buoyancy under water works as follows.

Anchors 1 by watercraft in a given water area of the sea are installed at an equal distance from each other (as an option). In the theoretical center of the location of the anchors exposed floating object "A". Water is received into its ballast tanks Bts-1, Bts-2 and Bts-3 until the object is buoyant close to zero. During the period of the maximum level of low tide, communications 7 are joined with object "A" with the involvement of divers and the use of hoisting craft. Next, the measured ballast tank Bts-2 is blown, the object acquires the estimated positive buoyancy. The component P 'of the positive buoyancy force P, acting on the anchors, is redistributed to the convergence force P _c and the vertical separation force P _b from the ground. Under the action of the force P _c , the armature body tends to move to the center of application of the load, while the teeth of the slats are buried in the ground, and the soil also fills the space under the console part of the anchor, which also increases the adhesion (suction) to the soil. The design of the armature according to the location of the masses and the point of application of the load in it is selected so that a moment arises relative to the rear lower edge of the armature body, contributing to the deepening of the teeth of the rail, and therefore, increased adhesion to the ground.

Claims (1)

 STATIONARY ANCHOR FOR SILO-CLAY-SAND-SAND SOILS, containing a parallelepiped-shaped body with a protrusion in its bow and an eye, characterized in that the anchor is equipped with a toothed rack installed in its stern at an angle to the bottom base and oriented by teeth towards the bow of the nose while the lath is rigidly connected to the bottom base of the anchor and each tooth of the lath is rigidly connected to the base by means of a dummy.

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