RU199059U1 - Device for coastal fastening of floating structures - Google Patents

Abstract

The utility model relates to the water transport of timber, in particular to the supports of timber floating structures. The device for coastal fastening of floating structures contains a pedestal, a vertically installed front plate and a bottom plate located perpendicular to it. The novelty is that the device is equipped with a casing pipe laid in the ground and adjacent on one side to the opening of the front plate, made at a depth of 2 / 3h , and the curbstone is installed on the bottom plate, equipped with stops interacting with the front plate on the other side, and the bottom plate is located on the surface of the excavation with a depth of 2 / 3h + δ + a / 2, where h is the vertical size of the front plate, equal to the depth of its laying; δ is the thickness of the bottom plate; a is the vertical dimension of the hole in the front plate. 2 ill.

Description

The utility model relates to the water transport of timber, in particular to the supports of timber floating structures, and can be used to fasten a rope from floating structures.

Known monolithic reinforced concrete support, in the center of which is installed a pedestal for fastening the rope from the floating structure (Budyka S.Kh. and others. Water transport of timber and mechanization of timber floating works. Minsk, "Higher School", 1970, S. 209).

The disadvantage of this support is insufficient reliability, because when the rope is fastened to a pedestal located above the ground, an overturning moment of forces occurs.

The closest to the claimed solution is the support BOS-4, containing a vertically installed front plate, a lower plate perpendicular to it and a vertical beam, behind the curbstone of which the rope is attached (Taskaev V.G. Coastal timber rafting supports: Textbook. - Arkhangelsk: RIO ALTI, 1991. - p. 56).

This support is taken as a prototype. The disadvantage of the prototype is insufficient reliability.

The task to be solved by the utility model is to increase the reliability of the device.

This is achieved by the fact that the device containing a pedestal, vertically installed front and perpendicular to it bottom plate, is equipped with a casing, laid in the ground and adjacent on one side to the opening of the front plate, made at a depth of 2 / 3h, and the pedestal is installed on the bottom plate equipped with stops interacting with the front plate on the other side, and the bottom plate is located on the surface of the foundation pit with a depth of 2 / 3h + δ + a / 2, where h is the vertical size of the front plate, equal to the depth of its laying; δ is the thickness of the bottom plate; a is the vertical dimension of the front plate hole.

The listed essential features make it possible to exclude the overturning moment of forces acting on the device, since the load from the floating structure lies on the line and is directed towards the forces of passive soil resistance. This improves the reliability of the device, i.e. solve the problem.

The utility model is illustrated in the drawing, where FIG. 1 shows the device, a sectional side view; in fig. 2 also, top view.

The device contains a vertically mounted front plate 1, a bottom plate 2 perpendicularly located to it with a pedestal 3 and stops 4 interacting with the front plate. A casing 6 adjoins the hole 5 of the front plate, through which the cable 7 from the floating structure passes and is attached to the bollard. Clamps 8 are used to fix the free end of the rope.

The construction of the device is carried out as follows. In a pre-dug pit with a depth of h, mark the location of the device. In the vertical plane passing through the longitudinal axis of the device towards the floating structure, a trench with a depth of 2 / 3h + a / 2 is torn off, a is the vertical size of the opening of the front plate, into which the casing is laid. In the presence of a ground drill, a well is laid, into which the casing is passed. The front plate is installed vertically in the pit so that the casing is adjacent to the plate hole. Holding the slab in a vertical position, fill the pit from the side opposite to the pipe to a depth of 2 / 3h + δ + a / 2. Then the bottom plate is laid in the pit along the axis of the device so that the stops interact with the front plate. After that, from the front side of the device, a pit and a trench with a layer-by-layer rammer are filled up. The device is now ready for use. The rope from the floating structure is passed through the casing and fastened behind the curbstone with several turns with the installation of clamps.

The utility model makes it possible to increase the reliability of the device and ensure trouble-free fastening of floating structures.

Claims (4)

A device for coastal fastening of floating structures, containing a pedestal, a vertically installed front plate and a bottom plate located perpendicular to it, characterized in that the device is equipped with a casing pipe laid in the ground and adjacent on one side to the opening of the front plate made at a depth of 2 / 3h, and the curbstone is installed on the bottom plate, equipped with stops interacting with the front plate on the other side, and the bottom plate is located on the surface of the foundation pit with a depth of 2 / 3h + δ + a / 2, where h is the vertical size of the front slab, equal to the depth of its laying; δ is the thickness of the bottom plate; a is the vertical dimension of the front plate hole.

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