RU134955U1 - WELL OF CABLE SEWERAGE - Google Patents

Abstract

1. A well of cable ducts comprising a hollow body with a neck and cable entries, made as a unit with the formation of a monolithic structure, and a removable neck cover, characterized in that the hollow body is made mainly in the form of a body of revolution with a vertical axis, on the surface of which zones are located flattenings with cable glands and support formations, while at least two support formations are adjacent to the neck of the housing, and two are placed on the supporting surface of the housing. 2. The well according to claim 1, characterized in that the hollow body with a neck, cable entries and the cover are made by rotational molding, for example, of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, mesh polyethylene, polyamide, polycarbonate, polypropylene, thermosetting polymeric materials such as polyurethanes, nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacryl and polymethacrylate, diene elastomers, thermoplastic elastomers and polyacetates, with false polyesters, polysulfones, from epoxy compositions, compositions having a polymer base containing reinforcing fibers. 3. The well according to claim 1, characterized in that the body volume and the neck diameter are selected from the conditions for creating a working zone in the body cavity. The well according to claim 3, characterized in that the body cavity has a predominantly spherical shape. The well according to claim 1, characterized in that the flattening zones on the outer surface of the housing with groups of cable entries are made, for example, in the form of a circle, ellipse, rectangle. The well according to claim 1, characterized in that

Description

The utility model relates to the technique of cable ducts for communications and is designed to accommodate linear telecommunications equipment, technological removal of cables and cable sleeves in the construction of cable ducts in the process of construction of communication lines. The well of cable ducts is arranged in the ground with the output of the neck to the surface. Earlier, reinforced concrete wells were widely used, which consisted of two parts, so when installing the well, it was necessary to connect these parts with cement mortar, which does not allow for tightness and high frost resistance.

Well-known wells of various designs made of polymeric materials, including for cable ducts SU No. 692939, IPC E02D 29/12, publ. 10/25/1997; SU No. 1470870, IPC E02D 29/12, publ. 04/07/1989; Utility model RU No. 15899, IPC E03F 5/02, publ. November 20, 2000; DE No. 4122299, IPC E03F 5/02, publ. 01/14/1993; FR No. 2509343, IPC E03F 5/02, publ. 07/10/1981; GB No. 1577986, IPC E03F 5/02, publ. 10/29/1980

Known well cable drainage (inspection well), comprising a housing, a cover installed in the neck of the housing, and cable entries from at least two sides of the housing made of plastic (SU No. 1599491, IPC E03F 5/02, publ. 15.10. 1990).

Known well cable ducts, which contains a monolithic housing, the neck of the housing, and cable entries (nozzles), at least on two sides of the housing made of plastic. The housing is equipped with external mutually perpendicular horizontal and vertical stiffeners made at the same time (utility model patent RU No. 866635, IPC E04H 5/06; E02D 29/12; H02G 9/10, publ. 09/10/2009)

A well is known for a cable sewage well, which is made of high-strength polyethylene (Organization standard. Wells are plastic. ST TOO 40242405-013-209. Kazakhstan. Almaty. 2009). A well is a one-piece or prefabricated structure. To give rigidity to the well, collapsible steel frame elements (stringers) can be installed inside it in the form of a frame with racks of steel pipes for mounting brackets and cable consoles for laying couplings and process outlets. The body of the well can be made with vertical and horizontal stiffeners. In the wells, there are places for the entry of pipes with the possibility of their complete sealing. The inlet of the well is equipped with a protective plastic cap.

Closest to the claimed utility model is a well of cable ducts, which contains a monolithic case, a neck cover, and cable glands (pipes) (utility model patent RU No. 86635, IPC E04H 5/06; E02D 29/12; H02G 9/10 published on September 10, 2009). The body is made in the form of a parallelepiped. The volume of the body and the neck are selected from the condition of providing the possibility of placing a person inside the body. The case and cover are made of polyethylene resistant to thermo-oxidative aging under the influence of soil and groundwater and other external factors. The well body is provided with external mutually perpendicular horizontal and vertical stiffeners, made at the same time as it is. The body and cover are made of polyethylene resistant to thermo-oxidative aging. The cover is threaded and provided with an O-ring. Cable entries are placed in an amount of two to four on four sides (faces) of the housing. Cable glands are made in the form of hermetically sealed nozzles in delivery condition

The technical task of the utility model is to create a well, expanding the arsenal of tools used to place linear telecommunication equipment, technological removal of cables and cable sleeves in the construction of telecommunication networks.

The task is achieved due to the fact that the hollow body of the well is made mainly in the form of a body of revolution with a vertical axis, on the surface of which there are flattening zones with cable entries and supporting formations, while at least two supporting formations are adjacent to the neck of the body and two are placed on the supporting surface of the housing.

The specified hollow body with a neck, cable entries and a cover are made by rotational molding, for example, a hollow body with a neck, cable entries and a cover are made by rotational molding, for example, from low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, mesh polyethylene, polyamide polycarbonate, polypropylene, from thermosetting polymeric materials such as polyurethanes, nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacrylic and polymethacrylate, diene elastomers, thermoplastic elastomers and polyacetates, polyesters, polysulfones, from epoxy compositions, compositions having a polymer base containing reinforcing fibers.

The volume of the body and the diameter of the neck are selected from the conditions for creating a working zone in the body cavity. The body cavity has a predominantly spherical shape.

Flattening zones on the outer surface of the housing with cable entries are made, for example, in the form of a circle, ellipse, rectangle.

Cable entries made in the form of sealed recesses, plugged in the delivery state.

Supporting formations on the outer surface of the housing are made, for example, in the form of elongated tides-protrusions located on sections of the housing with a convex surface.

Supporting formations on the side of the inner surface of the cavity of the housing are provided with grooves to enable placement of elements for arranging the working area, for example, arms, cable consoles, in the cavity of the housing.

The accompanying drawings show:

figure 1 - General view of the well of cable ducts in volumetric (axonometric projection);

figure 2 - General view of the well with a cutout in the housing;

figure 3 is a front view of the well;

figure 4 is a side view of the well;

figure 5 is a General view of the well from above;

figure 6 - well cover.

The well of the cable duct contains a hollow body 1 with a neck 2. The neck 2 is provided with a cover 3. Cable entries 4 are placed on the body 1. The hollow body 1 with a neck 2 and cable entries 3 is made as a single unit with the formation of a monolithic structure. Mostly, the housing 1 is made in the form of a body of revolution with a vertical axis. Supporting formations are placed on the surface of the casing 1, at least two supporting formations 5 and 6 are adjacent to the neck 2 of the casing 1, and the other two 7 and 8 are placed on the supporting surface of the casing 1. The cavity of the casing 1 has mainly spherical shape. The volume of the housing 1 and the diameter of the neck 2 are selected from the conditions for creating a working zone in the cavity of the housing 1. The supporting formations 5, 6, 7, 8 are made integral with the housing 1 and can be made in the form of external elongated tides-protrusions located on the sections of the housing 1 with a convex surface. If necessary, the housing 1 can be made with a large number of supporting formations. Their shape, size, placement on the body may vary. Supporting formations in the form of elongated tides-protrusions 5, 6, 7 and 8 can be made with grooves 9 on the inner surface of the housing 1, which provide the possibility of placement in the cavity of the housing elements of arrangement of the working area, for example, brackets, cable consoles.

Cable entries 4 are located in the flattening zones 10, 11, 12 and 13 on the outer surface of the housing 1. Flattening zones 10, 11, 12 and 13 with cable entries 4 can be made, for example, in the form of a circle, ellipse, rectangle. The flattening zones 10, 11, 12 and 13 on the surface of the housing 1 can be placed symmetrically. Cable entries 4 are made in the form of sealed, plugged in the delivery state, recesses 14.

The cover 3 of the neck 2 may be threaded and provided with an annular seal. To tighten and unscrew the cover 3 use a socket wrench, for installation of which on the cover 3 are the recesses 15.

The hollow body 1 with the neck 2, the cable entries 4 and the cover 3 are made by rotational molding, for example, of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, mesh polyethylene, polyamide, polycarbonate, polypropylene, thermosetting polymeric materials such as polyurethanes , nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacryl and polymethacryl, diene elastomers, thermoplastic elastomers and polyacetates, polyesters, polysulfones, from epoxy compositions, compositions having a polymer base containing reinforcing fibers.

The input of the well 1 cable duct is as follows. The weight of plastic wells compared to reinforced concrete wells of the same size is about 8-9 times less. This allows you to reduce the cost of transporting wells to the installation site, to carry out loading and unloading, installation and orientation of the wells along the cable line without the use of lifting mechanisms. Well 1 is lowered into the pit. In this case, the supporting surface of the housing 1 with its supporting formations 7 and 8 is located at the bottom of the pit. In the process of lowering the well 1 is oriented in such a way that the direction of its cable entries 4 coincides with the direction of the designed lines for laying the pipes of the cable pipeline. Next, the well is pre-fixed by adding soil, sand, and crushed stone, not reaching 50-70 mm to the level of the lower cable entries 4. In the plugged recesses 14, holes are made and cables are inserted that seal. Next is the filling of the well. On top of the well 1 with the neck 2 is blocked by a base plate (not shown), which is installed at the level of backfill. At the same time, the lower surface of the base plate is in contact with the supporting formations in the form of elongated tides-protrusions 5 and 6. It is possible to install a reinforced concrete base plate with a standard hatch and cover over the well. Tests have shown that it is possible to run into a well of freight vehicles.

The design of the well described above, made in the form of a body of revolution with a vertical axis and supporting formations, provides high strength characteristics of the well. In addition, it is possible to quickly build complex configurations of the sewage system, as well as improved conditions for monitoring, installation and maintenance of cable connections due to the placement of elements for arranging the working area in the body cavity.

The use of these materials in the manufacture of body 1 and cover 2 allows you to make the body 1 of the well monolithic, sealed, resistant to temperature influences in the range of ± 50 ° C. The monolithic plastic well has high mechanical strength, which allows you to transport the wells by any means of transport and to inaccessible areas on any roads, without fear for the integrity of the cargo.

The well is resistant to aggressive environments, to temperature extremes, which makes its service life very high (at least 50 years).

The presence on the lateral surfaces of the housing 1 of the well of cable entries 4 allows you to trace the cable line with high accuracy (which is important for complex cable ducts).

The design of the housing 1 and the neck 2 are made in such a way that a reinforced concrete slab with a standard hatch and a cover is installed over the well, this makes it possible to run into the well of freight vehicles, which is confirmed by tests.

Cable entries 4 with hole 14 are muffled in the initial (delivery) state, which ensures complete tightness and the ability to use only necessary cable entries for various types of pipes for inputs.

Cable lines in the proposed well practically do not require routine maintenance for 50 years. During the operation of the cable network, the sealed well does not allow impact on the cables and sections of their connection of water or aggressive environments. At the same time, it is possible to check the status of connections and cables directly from the inside of the case without repeated earthwork.

Claims (8)

1. A well of cable ducts containing a hollow body with a neck and cable entries, made as a unit with the formation of a monolithic structure, and a removable neck cover, characterized in that the hollow body is made mainly in the form of a body of revolution with a vertical axis, on the surface of which zones are located flattening with cable entries and supporting formations, while at least two supporting formations are adjacent to the neck of the housing, and two are placed on the supporting surface of the housing. 2. The well according to claim 1, characterized in that the hollow body with a neck, cable entries and cover are made by rotational molding, for example, of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, mesh polyethylene, polyamide, polycarbonate, polypropylene, from thermosetting polymeric materials such as polyurethanes, nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacryl and polymethacryl, diene elastomers, thermoplastic elastomers and polyacetates, polyesters, polysulfones, from epoxy compositions, compositions having a polymer base, containing reinforcing fibers. 3. The well according to claim 1, characterized in that the body volume and the neck diameter are selected from the conditions for creating a working zone in the body cavity. 4. The well according to claim 3, characterized in that the body cavity has a predominantly spherical shape. 5. The well according to claim 1, characterized in that the flattening zone on the outer surface of the housing with groups of cable entries is made, for example, in the form of a circle, ellipse, rectangle. 6. The well according to claim 1, characterized in that the cable entries are made in the form of sealed recesses, plugged in the delivery state. 7. The well according to claim 1, characterized in that the supporting formations on the outer surface of the body are made, for example, in the form of elongated tides-protrusions located on sections of the body with a convex surface. 8. The well according to claim 6, characterized in that the support formations on the side of the inner surface of the cavity of the housing are provided with grooves to enable placement of elements for arranging the working area, for example, brackets, cable consoles, in the cavity of the housing.

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