RU2032017C1 - Method for reinforcing natural ice covering - Google Patents

Abstract

FIELD: reinforcement of ice covering. SUBSTANCE: method involves increasing the thickness of covering by immersing ice blocks into an opening formed by cutting out the natural ice covering around block perimeter. Ice thickness is increased by cycles each consisting in immersing the blocks to a depth equal to thickness of natural ice covering and attaching them to said natural covering. Beginning with the second cycle the cutouts in the natural ice covering are made after freezing of the water which fills the opening above the immersed blocks. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to the construction and relates to methods of strengthening the ice cover while performing the role of a bearing base.

 There is a method of strengthening the ice cover by increasing its thickness to the entire depth using thermal piles and volumetric freezing techniques [1].

 The disadvantage of this method is the difficulty of implementation, especially with large-scale work.

 Closest to the invention in technical essence is a method of strengthening the ice cover by increasing its thickness by flooding the ice blocks in the window, and the window is formed by cutting holes in the natural ice cover around the perimeter of the blocks [2].

 The disadvantage of this method is the significant complexity associated with the need to cut a large number of blocks, their transportation, laying and fencing, which reduces the effectiveness of the method.

 The purpose of the invention is the development of a method of hardening the natural ice cover by using smaller volumes of blocks, to prevent cracking and expansion. In addition, this method achieves an increase in flexural strength.

 The cut blocks make it possible to build up the natural ice cover in various ways using load distribution curves.

 The goal is achieved in that the method of enhancing the natural ice cover includes increasing its thickness by flooding the ice blocks into a window formed by cutting openings in the natural ice cover around the perimeter of the blocks. The thickness is increased in cycles, in each of which the blocks are flooded to a depth equal to the thickness of the natural ice cover and fixed to it, and starting from the second cycle, the cracks are cut in the natural ice cover after freezing the water filling the window over the flooded blocks.

 This embodiment of the method provides, compared with the known increase in the strength of the natural ice cover for a deflection of 2.5 times. In addition, when strengthening the natural ice cover of the proposed method is not detected cracking and swelling of the ice cover.

 In FIG. 1 shows an ice cover section; in FIG. 2 is a diagram of the immersion of an ice block using a mechanical device; in FIG. 3 is an embodiment of immersing an ice block with another block; in FIG. 4 - an option to create an ice column.

 On the selected natural ice sheet 1, block 2 is cut along the perimeter with slots 3. After that, the sawn block 2 is flooded into the formed window with the help of stop screws 4 fixed to the beam 5 connected to the cover 1 by anchors 6.

 The thickness of the natural ice cover is increased by flooding the cut ice block 2 down to a depth equal to the thickness of the natural ice cover. Above the flooded block 2, water collects from above, a new block freezes, which is again cut along the perimeter using slots 3 and again flooded to a depth equal to the thickness of the natural ice cover. In this case, the cut out block 2 can be flooded down not only with the stop screws 4, but also with the help of its loading with the additional block 7.

 By the proposed method, it is possible to form an ice column 8 with its installation on the bottom 9. For long-term preservation of the ice column, a kerosene thermoway 10 can be installed inside it. Moreover, to eliminate the possibility of a quick washout of this ice column, it is easy to install another one or you can install columns in plan so so that they overlap each other (around the perimeter of the hexagon). In this case, the current will wash away the entire structure along the outer perimeter.

 The following is an example of ice cover reinforcement under a temporary runway or ice crossing (Fig. 5).

 That part of strip 1, on which the plane directly lands and where the greatest dynamic loads are, is reinforced in two ways. Several windows are made and blocks 3 are immersed vertically in them, followed by their freezing. And between them, slits are cut along the contour and blocks 2 are flooded into the water, followed by freezing. The rest of the strip, where smaller dynamic loads can be strengthened by cutting along the contour of the cracks and flooding the formed blocks 2 with subsequent freezing. The strips are covered with heat-insulating material, for example crushed stone.

 The proposed method can be used in various fields of national economy, easy to use, manufacture and can find wide application.

Claims (1)

 METHOD FOR STRENGTHENING THE NATURAL ICE COVER, including increasing its thickness by flooding the ice blocks into a window formed by cutting openings in the natural ice cover around the perimeter of the blocks, characterized in that the thickness is increased in cycles, in each of which the blocks are flooded to a depth equal to the thickness of the natural ice cover, and fix to it, and starting from the second cycle, the cutting of cracks in the natural ice cover is carried out after freezing the water filling the window over the flooded in blocks.

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