SE440804B - BED OF FRICTION MATERIAL ESTABLISHABLE STOCK CONSTRUCTION - Google Patents

Description

j ßiii-Ûßi- * Hš-wi the support structure via the macadam cone to the bottom.

The column tube can, if required to increase the precision of the macadam cone, be provided with a round constriction with a central passage passage just above the transition to the funnel. Furthermore, the funnel structure at the bottom edge can be provided with a vertical "skirt", possibly with a serrated edge, which penetrates into the bottom, if this is soft, and prevents unnecessary spread of the macadam outside the funnel. In addition, the "skirt" is valuable where there is a risk of erosion. The support structure is further provided with means for fixing the position of the column during assembly.

The pillar does not necessarily have to be in the form of a circular tube, but can have a square or other cross-sectional shape. The funnel construction does not have to be circular, but can have another shape, e.g. polygonal.

The construction is particularly well suited for quay and pier constructions as well as work platforms.

It can also be used e.g. at certain broken structures and offshore installations.

The invention is described below with reference to the accompanying drawings, in which Fig. 1 schematically shows a support structure of the conventional type used in underwater work, Fig. 2 shows a plan view of the foot of the support structure, according to Figs. Fig. 3 shows a support structure according to the invention, during assembly, Fig. 4 shows a plan view of the foot of a support structure, according to Fig. 3 and Figs. 5-8 show different steps during assembly of a pier or quay platform, with use of support legs according to the invention.

In Figs. 1 and 3, 10 denotes the seabed and ll the water surface. A support structure 12 of conventional design and of the type shown in Fig. 1 presupposes that a gravel or macadam bed '13 has been laid out on the seabed, which must be flat and completely horizontal. The shape of the support structure can of course vary with regard to water depth and expected load, but it consists in principle of a pillar 1ü and a foot plate 15, usually provided with stiffening springs 16.

The macadam bed can be emptied from a barge and you get an uneven pile or piles that are leveled off, e.g. by pulling a scraper back and forth over it. Due to the difficulty of positioning the bed exactly in relation to the intended center of the pillar, one must cover an area considerably larger than the foot plate, and to compensate for any irregularities in the bottom profile and possibly. slopes you can count on an extra amount of macadam. the authorities when laying the bed as well as careful control in general with divers results in an expensive foundation.

A support structure according to the invention filled with macadam is shown in Fig. 3 and comprises a tubular pillar 20 and a lattice-shaped structure 21 connected to its lower end, the base surface of which is calculated with regard to the basic conditions and expected load on the pillar. The macadam is emptied through the pillar and the funnel directly to the bottom.

After the pillar has been flexed with its funnel to the desired position, the macadam is filled through a trntL 22 in such an amount that it rises a bit up in the pillar to compensate if necessary. settlements. The macadam is vibrated so that it becomes well-packed and homogeneous. The macadam bed is now well centered and concentrated directly under the pillar without unnecessary filling outside the intended area.

If you choose a macadam fraction that in water has a race angle of say ÅBO, you construct the supporting funnel with a base angle slightly larger than the macadam * ns angle, say H80. The base surface of the funnel is dimensioned with regard to the estimated bottom load. When you fill the macadam through the pillar, thirteen is 100% filled and the inner mantle surface of the area lies completely against the formed lnaknLlznn cone. The prntt construction becomes itselfLyv-'xrndx- when it rests on the macadam cone with its entire inner mantle surface, and can be designed as a simple shell construction. The load on the pillar is thus transferred over the funnel and the macadam down into Poon 'QUALITY iÉixIt ¥ 4p41 $ ¿' 4 l: on the base surface of the macadam cone.

Because the rake angle for the macadam is smaller than the base angle for the cone, it is realized that the macadam completely adapts to the inner surface of the funnel and the bottom profile and fills 100% of the space between the funnel and the bottom.

If the support structure with its base ends up a bit above the bottom, it does not matter for the function.

The result is only that the funnel ends up at the top of the macadam cone, but the transmission of the forces to the bottom remains the same. The difference is that the base area becomes larger and that more macadam is used.

In the case of a soft and muddy bottom or where there is a risk of erosion, it may be appropriate to provide the funnel structure 21 with a "skirt" 25 along the lower edge. The "keel" is directed vertically and is suitably provided with a serrated edge 26, which easily penetrates into the soft bottom. It will keep the macadam together during the funnel construction.

With regard to heavy load and buckling risk, etc. the pillar 20 can have a considerable diameter. To center the macadam cone, one can then make a constriction 23 with a central passage passage within the pillar, just above the transition to the funnel-shaped structure 21.

The hollow pillar should, of course, in general, underwater work, protrude a suitable distance above the water surface, e.g. to facilitate the filling of macadam.

The pillar does not necessarily have to be in the form of a circular tube, but can have a square or other cross-sectional shape. The pillar can also be slightly conical, i.e. expand downward. In some cases, i.a. to save on macadam, special efforts can be made in the tratton which make it possible to distribute the macadam more in the periphery. Furthermore, one can distribute the macadam on a number of smaller cones, ox. located at a certain distance from centrumltnjcn.

Then the funnel and tube are completely filled with muka- Mlïíñílæ * QUALITY 3100443-'4 U! dam you can inject the whole construction ooh then remove the "mold", i.e. pillars and truti. Armoring is then required in some cases. The construction resulting from the grouting then forms a load-bearing pillar on its foundation.

Support structures of the type referred to here are used to advantage, e.g. at temporary or permanent quays, piers and work platforms, carried by a number of legs.

Figs. 5-8 show the invention applied to a temporarily expandable pier adjacent to a quay 30. The pier is designed as a floating pontoon 31, and in working position must be carried by a number of support legs 32 of the same type as shown in Fig. 3 The support legs are mounted in the pontoon 31 in a suitable manner and the pontoon can be raised or lowered, for example by means of jack-up mechanisms 33.

The pontoon 31 is provided with mooring devices Bh, which in the case shown are slidable against fendulars 35 at the quay 30 and which keep the pontoon at a distance therefrom. The pontoon 31 is moved with the support legs 32 raised to the intended place and moored carefully, whereby the positions of the support legs are precisely determined - Fig. Ä. Then the support legs are lowered, if necessary. by means of winches, so that the funnel-shaped constructions 21 end up on the bottom, or possibly so that "skirts" 25 penetrate into the bottom sludge - Fig. ISLAND.

Gambling resp. tides in the harbor do not touch the lowered outriggers as the pontoon moves freely up and down the pillars, after the jack-up has been disengaged. The macadam is replenished resp. support legs from the quay or some floating fabric because the pontoon must not be loaded when it floats exposed - Fig. 7. Since the macadam cones Bü under resp. the support legs have been vibrated and sat down, but with the help of the jack-up mechanisms 33 lift the pontoon 31 successively out of the water to the prescribed position in Relative to quay WO, resp. bottom horizontal ollor lutnndo. A ramp is laid out from the quay to the pouton so that wheeled vehicles can drive out pm piron and vivo vers-u. .lzurk-uplrnuluxnismernu xned, - ~; ur vi. further adjustments if required. The pontoon BI is so constructed that high tide only licks the lower edge of the same water tank __ QUALITY Fl-'O fl èßf. There are of course other possibilities to regulate the height position in relation to the bottom and the water surface, for example. by trimming with water.

The invention can of course be applied to work platforms or the like which are set up free from the quay and which are moored in a suitable manner during the assembly operation in order to accurately position the support legs. Another example of work platforms can be mentioned offshore.

In the ground plane, where a bed of friction material is to be laid out as a basis for a construction, the invention can also be applied to advantage. The principle is exactly the same. An example is waterlogged soil, where support legs, which at the bottom end into a funnel, are placed in a excavated pit and filled with macadam. After vibration, the column can be loaded. This avoids work with e.g. sheet piling, bilge pumping and casting on site.

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Claims (5)

8-51 (JG-i 43-4 PATENT REQUIREMENTS A support structure which can be set up on a bed of friction material, especially for underwater work, characterized by a hollow, rigid pillar (20), which at the bottom transforms into an inverted, funnel-shaped, rigidly rigid structure (21). with a base surface which is considerably larger than the cross-section of the column and at which the housing angle is slightly greater than the natural angle of inclination for the material fraction used. 2. Support structure according to patent screw 1, characterized in that the hollow polar (20) near the transition to the funnel structure (91) is provided with a constriction (21) with a central passage passage. Support structure according to one of Claims 1 or 2, characterized in that the funnel-shaped trmlkíLioneell at its nudrv xrnynninggzwkëlnír iir 'lïšrbvfld with a skirt directed substantially in the column (20) - 25 lüngdaxol. 4. The support structure according to putvnkruvnt H, k ii n n v l. R: u k n zx d (lšírnv, nLl kyjnlnns (IPS) nc-rhrr- edge is' Landaul. Support structure according to any one of the preceding claims, applied to a floating cage pontoon (ju) or the like, together with a number of similar support structures Linnvr (33), characterized in that it is connected to the pontoon (BO) or the like, which is variable in height position by trimming or (and) using any jack-up mechanism (33). "FOÉORK t" w QUALITY