RU2662822C2 - Method of sealing of utility penetrations - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the construction and repair of concrete structures, cable, sewerage, gas wells and reinforced concrete structures, collectors and tunnels, namely, to the sealing of the utility penetrations. Way of sealing utility penetrations consists in pumping water out of the well, if any. Walls of the well are cleaned in places where the pipeline passes through holes in the walls of the well. Waterproofing compound is applied. Holes in the walls of the well at utility penetrations of the well are sealed by winding the self-expanding tow on the pipeline.EFFECT: technical result consists in reducing the labor intensity and time of construction and repair work, improving the quality of sealing of utility penetrations in the concrete structures under operation and construction.1 cl, 1 dwg

Description

The invention relates to the construction and repair of concrete structures, cable, sewer, gas wells and reinforced concrete structures, collectors and tunnels, and in particular to methods of sealing engineering communications.

The well-known and most common methods of waterproofing wells are methods of repairing existing wells by sealing joints and plastering damage with cement-sand mortar, when the wells are assembled on a reinforced concrete slab or monolithic base in the form of a vertical set of rings or frames overlapped by the slab, in the walls and ceilings each well has holes for pipes and a neck. The joints of the mating elements and the holes for the pipes are sealed with clay, tar and mastics, and the inner surfaces of the walls and the base are waterproofed, and seals and waterproofing are carried out directly in the field (see A.K. Pereshivkin and others. “Installation of external water supply systems and sewage systems. ”4th ed., revised and supplemented. - M .: Stroyizdat, 1988, p. 653).

The disadvantage of this method is that groundwater and wastewater with a high content of aggressive components for several months impregnate grouted joints and wash out the main binder - calcium. The washing out of calcium leads to a complete loss of its properties by the solution, the solution crumbles, and the joints lose their tightness, thus, due to the indicated method, it is characterized by a short after-repair life.

In addition, the connection is rigid and with linear expansion of the pipeline microcracks are formed.

A known method of repairing cable wells, the essence of which is that the method of repairing cable wells, when a protective composition containing a squid is applied to the surface of the damage to concrete cable wells, moisturize the cleaned surface of the indicated damage places before applying the protective composition, after which these damage sites are primed by coating them with a liquid solution containing squidron and water in a ratio of one to one in volume parts, and the protective composition additionally contains um cement, sand and water at the ratio of cement, sand and Kalmatrona in the composition in parts by volume of 1: 2: 3. (Patent RU No. 2228407 of the authors Yushchenko Yu.I., Klimenko E.V., Kuleshova S.M., Matveeva E.A., Artyomova BC, Larkina D.A., IPC E02D 29/12, publication date 05/10/2004 )

The disadvantage of this method is the low quality, as well as the high complexity and duration of the repair, due to the fact that the thickness of the protective layer is only 3-5 mm, so it quickly "sets", which requires a very quick use of the prepared amount of solution. The connection is rigid and with linear expansion and compression of the pipeline microcracks are formed.

The closest in combination of features and the achieved technical result is a method of waterproofing a pipeline well in swamps and lakes. The essence of this method is that initially in the well of the pipeline with sleeves installed in the places where it passes through the holes in the walls of the well, water is pumped out, then the walls of each sleeve are cleaned and hydraulic seals are installed in them, into which fittings are installed through which the hydraulic composition is pumped , which is used as the expanding materials "Akvidur" or "Vitrapur", after which a sleeve with a reinforced mesh in two layers is installed on each sleeve, and then a protective coating is installed The term apart sleeves which are directly in the well pipe (patent

No. RU No. 2491469 of the author A. Konev, IPC F16L 59/14, E02D 29/12 (2006.01), publication date 08/27/2013).

The disadvantages of this method are both the high complexity and cost of repairs due to the use of lifting machines, and the low efficiency of the indicated composition used in the method, due to the fact that polyurethane loses its elasticity as a result of polymerization and, therefore, linear during summer-winter cyclic temperature differences the expansion of the steel pipeline exceeds the elastic limit of polyurethane, as a result of which a separation of the composition from the pipe surface is observed, which leads to depressurization sealed pipeline joint.

The technical task of the claimed technical solution is to create an effective and simple way to seal the passage of the pipe into the well.

A method of sealing the places of passage of utilities, which consists in pumping water from the well, if any, clean the walls of the well in places where the pipeline passes through the holes in the walls of the well, and apply a waterproofing composition. The holes in the walls of the well at the places of engineering communications in the well are sealed by winding a self-expanding tow on the pipeline. It is possible to cover the self-expanding tourniquet with a formwork casing to limit the limit of expansion of the tourniquet.

The technical task in the method of sealing the passage of engineering communications is achieved by the fact that the technical result of the invention is to reduce the complexity and time of construction and repair work, improving the quality of work on sealing the passage of engineering communications in constructed and operated concrete structures.

The claimed technical solution is illustrated in FIG. one.

A method of sealing engineering communications places is that a flexible self-expanding tourniquet 4 of rectangular cross section, which includes special composite materials, is wound on the cleaned surface of the engineering communications 2 (for example, a cable or pipe) from the outside of the well 1. When interacting with water, the tow can swell up to 300% within a limited space, ensuring tightness and maintaining flexibility at low temperatures. The harness is wound in 2 rows in height and 3 rows in length from the wall of the well. To limit the limit of expansion of the bundle, a protective casing 3, consisting of two parts, is installed from above. The formwork casing 3 is attached to the wall of the well with dowels or, if possible, for welding. A hydraulic gasket, for example, Penebar, is highly resistant to hydrostatic pressure and ensures tightness of joints, joints, etc. The properties of a hydraulic gasket do not change over time and its service life is unlimited. "Penebar" is quickly and easily mounted, does not require special devices. Installation work on the Penebar hydraulic gasket can be carried out in any weather, all-weather. In this case, the connection is not rigid and does not prevent the linear expansion of the pipeline.

Installation of the waterproofing plait “Penebar” is carried out immediately before the installation of the formwork. Before carrying out work, it is necessary to remove standing water from the surface. The surface to be treated must be dry and clean, but Penebar must be installed on a damp concrete surface. The minimum distance "Penebar" from the edges of the insulated structure is 50 mm.

The waterproofing harness of Penebar is resistant to acid solutions: hydrochloric HCl, sulfuric H ₂ SO ₄ , resistant to alkali: NaOH, resistant to light and dark oil products. Ultraviolet does not affect its properties.

When interacting with water, the tow is able to swell within a limited space up to 300%, thereby filling the space between the pipe and the formwork casing, thereby ensuring tightness and ductility of the connection.

An analysis of the known technical solutions, carried out according to scientific, technical and patent documentation, showed that the set of essential features of the claimed technical solution is unknown from the prior art, therefore, it meets the patentability conditions of “novelty” and “inventive step”. It has practical suitability for gas transmission enterprises.

Claims (2)

1. The method of sealing the places of passage of utilities, which consists in pumping water from the well, if any, clean the walls of the well in places where the pipeline passes through holes in the walls of the well, apply a waterproofing composition, characterized in that the holes in the walls of the well in places of passage utilities in the well are sealed by winding a self-expanding tourniquet on the pipeline. 2. The method according to p. 1, characterized in that the self-expanding tourniquet is closed by a casing-formwork to limit the limit of expansion of the tourniquet.

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