RU84404U1 - COOLED STAFF SUPPORT - Google Patents

Abstract

1. Cooled pile support, containing a metal or reinforced concrete shaft partially buried in the ground, provided with a support platform from the upper end side, as well as a seasonal cooling device and a container with a cold storage substance, characterized in that this container is made of elastic material and placed outside the specified trunk in a vertical well closed in the ground closed in from the top and resting on its walls, and the seasonal cooling device is made in the form of one or more vertically oriented gravitational heat pipes placed outside the specified tubular trunk with evaporation and condensation zones and a transport zone located between them, the evaporation zone of each of these heat pipes being lower and the condensation zone above the ground surface. ! 2. The pile support according to claim 1, characterized in that it is equipped with one or more additional containers with a cold storage substance made of elastic material, each of which is placed outside the specified trunk in a vertical well made in the ground, closed at the top. ! 3. Pile support according to claim 1 or 2, characterized in that the container with the cold storage substance is enclosed in a hard case. ! 4. The pile support according to claim 3, characterized in that the cold storage substance is a liquid that hardens at a temperature of (0) - (- 3) ° C. ! 5. Pile support according to claim 4, characterized in that the cold storage substance is water. ! 6. Pile support according to claim 1 or 2, characterized in that the cold storage substance is a liquid that hardens at a temperature of (0) - (- 3) ° C. ! 7. Piling

Description

The proposed utility model relates to the field of construction, namely, to the foundations and supports of various structures erected in areas of the Far North with permafrost soil, more specifically, to cooled pile supports.

Features of the construction of the supports of the foundations of structures are determined by the specific climatic conditions in the high-latitude regions of the North. In winter, the air temperature there is quite low for a long time and often reaches minus 40 °.

However, snow cover and low thermal conductivity of the soil do not allow it to freeze deeply and severely. In the summer season, frozen ground thaws, and this creates the threat of deformation of the bases and supports of structures. Therefore, there is a need to extend the frozen state of the soil in the summer. This is achieved by additional cooling the soil with the help of cooling units, for example, seasonal action. These units (vapor-liquid thermosyphons and gravity heat pipes) additionally cool the soil in winter and do not work in summer. With the help of such devices it is possible to significantly increase the bearing capacity of the bases and supports.

A number of designs of pile supports of building structures are known, which are cooled metal or reinforced concrete piles.

So, the pile support according to the patent of the Russian Federation No. 2250302 (publ. 04/20/2005 [1]) contains a reinforced concrete or metal vertical tubular trunk with a horizontal supporting platform located above the soil surface, and a cooling device in two heat pipes. The latter have the same transport and evaporation zones located inside the tubular barrel symmetrically about its axis, and the condensation zone. In this case, the evaporation zones of both heat pipes are connected by their lower parts, and the condensation zones are located obliquely above the soil surface under the horizontal supporting platform of the pile.

The pile support according to the patent of the Russian Federation No. 2256746 (published on July 20, 2005 [2]) contains a vertical tubular shaft with a horizontal support platform located above the soil surface and a cooling device in the form of a heat pipe. The transport zone and the evaporation zone of the heat pipe are made inside a vertical reinforced concrete tubular trunk, and the condensation zone is located obliquely above the ground surface under a horizontal supporting platform and is made in the form of a symmetrically curved pipe. The diameter of the heat pipe in the transport zone is less than the inner diameter of the tubular barrel, and the evaporation zone is an annular cavity between the outer surface of the continuation of the transport zone and the inner surface of the tubular barrel. A plug is installed at the lower end of the transport zone of the heat pipe, over which holes are made in the wall of the transport zone, and a hole with holes is installed below these holes in the cavity, which is the evaporation zone.

Pile support according to the author's certificate of the USSR No. 630337 (publ. 10/30/1978 [3]) is made in the form of a tubular trunk partially buried in the ground, closed at both ends, the upper of which is a supporting platform. The specified tubular barrel is charged with refrigerant and functions as a heat pipe with evaporation zones, a transport zone and a condensation zone located along the tubular barrel along its height. In the recessed part of the tubular trunk with a gap relative to the inner surface of its wall, a container with a cold-accumulating substance is placed.

The known cooled pile supports according to the patents [1, 2] and copyright certificate [3] are united by the fact that they are structurally combined with seasonal cooling devices in one or more heat pipes. Therefore, they provide cooling and freezing of the soil only in the immediate vicinity of the outer surface of the pile support. This reduces the reliability of the structure constructed using such pile supports, since there can be no guarantee of soil deformation outside the cooling effect of the heat pipe evaporation zone combined with the pile support. In addition, such pile supports are active devices - gravity heat pipes, the operation of which may be disrupted, for example, due to refrigerant leakage due to depressurization. Moreover, the support according to the author’s certificate [3], which contains a cold accumulator that increases the efficiency of its operation, has an additional source of unreliability - the possibility of a leak in the container with the cold accumulating substance as a result of expansion during freezing, which can lead to inoperability of the heat pipe during subsequent thawing substances. Further, in a device that combines the functions of a support and a heat pipe, the efficiency of the heat pipe is reduced due to the fact that the wall thickness of the tubular barrel must be selected sufficiently large taking into account that the barrel is a power element. With a decrease in this thickness, the bearing capacity of the pile support decreases. Finally, this design is fundamentally inapplicable if the pile support shaft is not tubular, but monolithic.

The technical solution for the proposed utility model is aimed at achieving a technical result consisting in increasing the reliability of structures using cooled pile supports, in combination with increasing the cooling and freezing efficiency, as well as providing the possibility of using supports with a monolithic trunk.

Closest to the proposed is a technical solution according to the author's certificate of the USSR No. 630337 [3].

The cooled pile support according to the proposed utility model, as well as the closest known support [3], contains a metal or reinforced concrete trunk partially buried in the ground, provided with a support platform from the upper end side, as well as a seasonal cooling device and a tank with cold storage substance .

To achieve the specified technical result in the proposed cooled pile support, in contrast to the closest known to it, the tank with the cold-accumulating substance is made of elastic material and placed outside the specified trunk in a vertical well closed in the ground and adjacent to its walls, and seasonal cooling device is made in the form of one or more vertically oriented gravitational heat pipes with evaporation zones and condensation and transport zone disposed therebetween, wherein the evaporation zone each of these pipes is lower and the condensation zone - above the ground surface.

Thanks to the described implementation of the pile support, the cooling of the soil is carried out by gravitational heat pipes located outside the tubular trunk and which are specialized tools that perform only the function of cooling and freezing the soil. The choice of their design parameters is not limited by the strength requirements for the barrel. Therefore, they are able to provide freezing of a larger volume of soil than a heat pipe combined with or placed inside the tubular trunk. At the same time, maintaining the soil in a frozen state and the absence of its deformation are provided by both the thermal inertia of the soil itself and the cold accumulator. Due to the fact that the latter is an elastic container placed in a vertical well with a fit to its walls, the integrity of this container is prevented during solidification of the cold-accumulating substance in it. In addition, the violation of the tightness of the tank, even if it takes place, does not affect the operation of the cooling device located outside the tubular shaft and outside the well and the tank.

The noted factors together determine the increased reliability of the operation of the proposed cooled pile support. As additional factors determining the increased reliability of structures using the pile support of the proposed design, it can be indicated that in case of a malfunction of the cooling device as a whole or individual heat pipes included in it, they can be easily replaced, since they are not physically combined with the pile shaft.

To increase the efficiency of soil cooling and maintaining it in a frozen state, the proposed pile support can be equipped with one or more additional containers with a cold-accumulating substance made of elastic material, each of which is placed outside the specified trunk in a vertical well made in the soil, closed at the top.

A container with a cold storage substance can be enclosed in a hard case, which simplifies its installation inside the well. The presence of a hard case complicates the proposed pile support only to a minimum extent and is not able to affect its reliability due to the extremely simple design of the case, which can be made in the form of a formwork or a metal or plastic pipe.

As a cold storage substance, a liquid can be used that hardens at a temperature of 0 ° - minus 3 ° C, for example, water. In this case, the container in which the liquid is located can be made in the form of a vessel with a neck having a hermetically sealed lid. Filling this tank with liquid can be done both before and after installing the tank in the well.

The proposed technical solution is illustrated in the drawing.

The cooled pile support, shown in the drawing, includes a metal or reinforced concrete shaft 1 immersed in soil 2, closed at the bottom and equipped with a flange 3 at the top. The latter is a supporting platform for installing structural elements of the structure under construction, for example, a power line farm. Barrel 1 can be either hollow or monolithic. At least one gravitational heat pipe 4, which is a seasonal cooling device, is installed on the sides of the barrel 1, and at least one vertical well 13 closed by a cover 14 is made.

A well-tight elastic container is placed in the well 13 — a vessel 5 filled through the filler neck 6 with a liquid 7 that hardens at a temperature of 0 ° - minus 3 ° C, for example, with water. The neck 6 is sealed with a cap 8. Before installing the tank 5 in the well 13, it can be enclosed in a hard case (not shown in the drawing), which can be made into formwork or a metal or plastic pipe. The capacity 5 due to the elasticity of its material (for example, rubber or plastic) takes the form of the inner surface of the wall of the well 13 or the shape of the case coordinated with it and is protected from rupture during solidification of the liquid 7.

The upper part of the gravitational heat pipe 4 has a fin 9 and serves as an air heat exchanger and a condenser for the heat carrier charged into the heat pipe 4. The lower part of the heat pipe 4 is in the ground and is the evaporation zone 11. The soil heat is absorbed by the evaporator and transferred up to the condensation zone by the vapor of the refrigerant. 12 through the transport zone 10 and is given to the surrounding air washing the fins 4.

In the case when the construction being erected is installed on several pile supports, the same heat pipe and the same container with a cold storage substance installed between adjacent pile supports can “serve” both of these supports, so the number of heat pipes and wells with tanks, accumulating cold substance, falling on average per pile support, may be no more than one.

The proposed pile support works and is used as follows. In the cold season, the heat pipe 4 pumps the heat of the soil into the surrounding air, the soil 2 and the liquid 7 in the tank 5 are cooled and solidified. In this case, the latent heat of the liquid is also transferred to the air. Then there is a further cooling of the soil and ice in the tank 5 with decreasing temperature. In the warm season, the heat pipe 4 seasonal action does not work. Under the influence of external climatic factors and heat supply from the structure, in which the pile support is used, the soil and pile support are heated. However, the melting of ice in the tank 5, accompanied by the absorption of a large amount of incoming heat from the outside, increases the duration of the transition of the soil around the pile support to an unfrozen state. This lengthens the period during which the pile support has a high bearing capacity.

Information sources

1. RF patent No. 2250302, publ. 04/20/2005.

2. RF patent No. 2256746, publ. 07/20/2005.

3. USSR Author's Certificate No. 630337, publ. 10/30/1978.

Claims (9)

1. Cooled pile support, containing a metal or reinforced concrete shaft partially buried in the ground, provided with a support platform from the upper end side, as well as a seasonal cooling device and a container with a cold storage substance, characterized in that this container is made of elastic material and placed outside the specified trunk in a vertical well closed in the ground closed in from the top and resting on its walls, and the seasonal cooling device is made in the form of one or more vertically oriented gravitational heat pipes placed outside the specified tubular trunk with evaporation and condensation zones and a transport zone located between them, the evaporation zone of each of these heat pipes being lower and the condensation zone above the ground surface. 2. The pile support according to claim 1, characterized in that it is equipped with one or more additional containers with a cold storage substance made of elastic material, each of which is placed outside the specified trunk in a vertical well made in the ground, closed at the top. 3. Pile support according to claim 1 or 2, characterized in that the container with the cold storage substance is enclosed in a hard case. 4. The pile support according to claim 3, characterized in that the cold storage substance is a liquid that hardens at a temperature of (0) - (- 3) ° C. 5. Pile support according to claim 4, characterized in that the cold storage substance is water. 6. Pile support according to claim 1 or 2, characterized in that the cold storage substance is a liquid that hardens at a temperature of (0) - (- 3) ° C. 7. Pile support according to claim 6, characterized in that the container with the cold-accumulating substance is made in the form of a vessel with a neck having a hermetically sealed lid. 8. Pile support according to claim 6, characterized in that the cold storage substance is water. 9. Pile support according to any one of claims 4, 5 and 8, characterized in that the container with the cold-accumulating substance is made in the form of a vessel with a neck having a hermetically sealed lid.