RU151543U1 - WELL CABLE TELECOMMUNICATIONS - Google Patents

Abstract

1. Telecommunication cable well, comprising a hollow body with a neck, a removable cover and a flat bottom, made as a unit with the formation of a monolithic structure with cable entries, characterized in that the hollow body is made in the form of a polygonal prism in a horizontal section, mainly hexagonal in shape , on the lateral surface of which are located the location of the cable entries, and on the upper protruding part of the housing there is a neck, made with the possibility of fixing it Removable kryshki.2. A well according to claim 1, characterized in that the hollow body, made in the form of a polygonal prism, is equipped with stiffening ribs with a flat surface located between the faces of the polygonal prism. 3. The well according to claim 1, characterized in that the neck is made with a hole diameter equal to from 0.7 to 1 from the smaller overall size of the body in a horizontal section. The well according to claim 1, characterized in that the hollow body with a neck, cable entries and a neck cover are made by rotational molding of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, mesh polyethylene, polyamide, polycarbonate, polypropylene, and thermosetting polymers materials such as polyurethanes, nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacryl and polymethacrylate, diene elastomers, thermoplastic elastomers and floor acetates, polyesters, polysulfones, from epoxy compositions, compositions having a polymer base, containing reinforcing fibers. 5. The well under item 1, characterized

Description

The proposed utility model relates to polyethylene cable wells and is designed to accommodate passive linear telecommunications equipment, cable and cable bushings in the construction of cable ducts using plastic corrugated and smooth-walled protective pipes. Wells can be through passage, angular, branching. The proposed well is designed to build a distributed network of low-pair telephone drainage.

Since 2008, the Russian company Matline LLC has been producing cable telecommunication plastic wells KKT-MPM in accordance with TU 2291-007-73011750-2010. Mass production. (see. Catalog “Welded wells and tanks MPM” 2012 of LLC “Matlayn”, V 4, 01.10.2012). Telecommunication cable wells are made of special double-walled polyethylene pipes (PEHD / HDPE). Welds are made in accordance with GOST 16310-80.

The polymer cable wells manufactured by the company are made by extrusion welding from a polyethylene two-layer pipe of increased ring stiffness SN4, 6, 8 or SN16. High density polyethylene is used. The outer surface of the well, depending on the pipe used, is either corrugated or smooth black. Internal - smooth, white, black or blue. Depending on the required ring stiffness, a change in the wall thickness of the cable well is possible. The well can be equipped with inlet pipes for cable entry into the well of various types. The number of nozzles is almost unlimited. Holes can be made anywhere. The main requirement - the distance between the holes should be at least 3-4 cm, depending on the size of the sealing collar.

The Russian company Sistema Group LLC produces in accordance with TU 2291-001-64304186-2011 serial cable telecommunication wells that are used in low-voltage cable networks (www.germesgroup.com). These wells are designed for pulling, mounting, inspecting, repairing and maintaining communication cables. In accordance with the requirements for the design of the construction of linear cable structures, wells are installed both under the carriageway and under the pedestrian zone.

Therefore, wells of different sizes are produced both heavy (under the carriageway) and light (under the pedestrian zone). Wells of the KKT type of two types can be delivered both equipped with brackets for the subsequent installation of consoles, and without equipment. With a larger volume of incoming pipes, wells are made with pipe blocks with a supply of free pipes of at least 15% (for replacing cables during installation, additional laying).

Known manhole communication lines. The inspection well includes a thin-walled plastic enclosure equipped with an anchor in the lower part (SU No. 692939, IPC E02D 29/12, publ. 10/25/1979). Inside the cavity of the enclosing cup there is a warmed insert having the shape of a cavity and supported on the bottom. The liner has a cavity open at the top and a cavity in the bottom, intended for laying the communication cable and its fittings in it.

Known manhole, located on the sewer or cable networks laid in seismic areas, in water-saturated or subsiding soils (SU No. 1599491, IPC E03F 5/02, publ. 10/15/1990). The well contains a hatch made in the form of a monolithic element of polymeric material, a housing, a tray, a support element and connecting bell pipes with two grooves for accommodating rubber sealing elements. One of the gutters is located directly under the wall of the housing. The bell-shaped pipes are connected to the wall of the casing from the outer and inner sides and to the supporting element by means of the mating radius and ensuring equal strength of the entire well. The polymeric material of the case is medium or high density polyethylene or polyvinyl chloride.

Known observation well of underground utilities, including the overlap of the well, the hatch and the hatch. The hatch body is made in the form of a continuous ring with a wide hole - a slot for the manhole cover. The hull and manhole cover are usually made of cast iron or from polymeric materials (CJSC Svyazstroydetal. Product Catalog 2008 (issue 1). Moscow 2008).

Famous viewing well of underground utilities (RU No. 91081 U, IPC E02D 29/12, publ. 01/27/2010). The well is used mainly for the installation of communications, cable lines and their inspection. The well contains an upper well overlap, including a floor slab, a hatch body in the form of a ring with a wide hole-socket in the center for the manhole cover, and a manhole cover. The hatch body has at least two through holes in the peripheral part, in the upper ceiling of the well on which the hatch is installed, holes are made that are aligned with the holes in the peripheral part of the hatch body. The well additionally contains connecting elements passing through the through holes of the peripheral part of the hatch body and coaxial openings of the upper overlap of the well and providing a permanent connection of the hatch body with the slab of the well.

Known well cable duct, containing a monolithic housing, the neck of the housing, and cable entries on at least two sides of the housing made of plastic, while the housing is equipped with stiffening ribs made at the same time, the volume of the housing and the diameter of the neck selected from the condition providing the possibility of placing a person inside the housing (RU 86635 U1, IPC E04H 5/06, publ. 09/10/2009).

A well-known cable drainage well containing a housing having a bottom, a cover, stiffeners and openings (cable channels) for a cable (RU 132828 U1, IPC E04H 5/06, publ. 09/27/2013). The casing is made of a number of sections mounted one on top of the other and having a groove and a reciprocal spike at the interface, each section of the well formed by four walls made in the form of a hollow hollow profile with cut out holes for cuffs used for mounting cable channels for laying cable. At the locations of the openings for the cable channel, the outer wall of the hollow profile is concave and has the shape of a semi-oval, and when combining two sections of the well, the concave outer wall of one section coincides with the concave outer wall of the other section, forming an oval shape, while on the inner walls of the well pockets for fastening fittings are installed.

Well sections are fastened to each other using studs, cap nuts, and self-locking nuts using lock washers made of stainless steel or polymeric materials (high pressure polycarbonate). The lid and bottom are made using the technology of sand-plastic molding under high pressure, and the sections are made of plastic. The proposed design of the well allows the use of various options for covers.

Known well 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 (KZ No. 997 U, IPC E04H 5/06, publ. September 16, 2013).

The hollow body is made predominantly in the form of a body of revolution with a vertical axis, on the surface of which flattening zones with cable glands and supporting formations are placed, while at least two supporting formations are adjacent to the neck of the body, and two are placed on the supporting surface of the body.

The hollow body with the neck, cable entries and the cover are made by rotational molding, for example, from low, medium, high pressure polyethylene, spatially crosslinked polyethylene. 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 groups of cable entries are made, for example, in the form of a circle, ellipse, rectangle. Cable entries are 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 from the side of the inner surface of the body cavity are provided with grooves to enable placement of working area arrangement elements, for example, brackets, cable consoles, in the body cavity.

This cable duct well is the closest technical solution to the proposed utility model.

The objective of the proposed technical solution is to develop the design of a cable telecommunication well, which expands the arsenal of tools currently used.

The problem is solved due to the fact that in a cable telecommunication well containing a hollow body with a neck, a removable cover and a flat bottom, made as a unit with the formation of a monolithic structure with locations of cable entries, the hollow body is made in the form of a polygonal prism in horizontal section, predominantly hexagonal in shape, on the lateral surface of which are located the location of the cable entries, and on the upper protruding part of the housing there is a neck made with the possibility of fixing a removable cover in it.

The hollow body, made in the form of a polygonal prism, is equipped with stiffening ribs with a flat surface located between the faces of the polygonal prism.

The neck is made with a hole diameter equal to from 0.7 to 1 from the smaller overall size of the body in horizontal section.

The hollow body with a neck, cable glands and the neck cover are made by rotational molding from a melt of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, net 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, polysul Phones, 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.

In the drawing of FIG. 1 shows a General view of the cable telecommunication well in volumetric (axonometric projection) in assembled form; in FIG. 2 is a side view of a cable telecommunication well; in FIG. 3 is a top view of a cable telecommunication well.

A telecommunication cable well comprises a monolithic case 1 with a neck 2, a cover 3 of a neck 2, and cable entries (not shown in the drawings). In the lower part of the hollow body 1 a flat bottom 4 is made. Cable entries can be evenly placed along the side surface 5 of the body 1.

The hollow body 1 is made in the form of a polygonal prism in a horizontal section, mainly of a hexagonal shape, on the lateral surface 5 of which are located the location of the cable entries (not shown), and in the upper protruding part of the body there is a neck 2 made with the possibility of fixing a removable cover 3. The neck 2 is made with a hole diameter equal to from 0.7 to 1 from a smaller overall size of the housing in a horizontal section. The hollow body 1, made in the form of a polygonal prism, is equipped with stiffening ribs 6 with a flat surface located between the faces of the polygonal prism.

Volume i.e. the width, depth and height of the housing 1 and the diameter of the neck 2 are selected from the conditions of ensuring comfort during operation.

The housing 1 and the cover 3 are preferably made of polyethylene resistant to thermo-oxidative aging under the influence of soil and groundwater and other external factors.

The housing 1 and the cover 3 are made by hot rotary molding from a melt, for example, polyethylene.

The housing 1 and the cover 3 can be made of spatially crosslinkable polyethylene, net polyethylene, polyamide, polycarbonate, polypropylene, thermosetting polymeric materials such as polyurethanes, nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacrylic and polymethacryl, diene elastomers , thermoplastic elastomers and polyacetates, polyesters, polysulfones, from epoxy compositions, compositions having a polymer base, containing reinforcing fibers.

The well on the side surface of the housing 5 can be equipped with mounting pads for input distribution polyethylene pipes from various directions at an angle of 120 ° and 60 °.

Pipes are inserted and sealed using sealed inlet adapters (not shown). This method of sealing the inputs does not require the use of heating devices or an open flame. Cable entries can be made in the form of plugged pipes that are evenly placed on the side surface 5 of the housing 1.

The cover 3 is provided with blind holes 7. The locking device of the cover is made in the form of a threaded connection with the base of the well. The sealing of this joint is ensured by a rubber sealed ring. To tightly close the lid, a special auxiliary key is used, which is placed in the blind holes 7. The well can be used as a viewing device with the neck opening to the surface, as well as underground containers for the purpose of distributing a low-pair subscriber cable.

Installation is made without the use of loading special equipment. Operating temperature from -60 ° C to + 70 ° C. Service life not less than 50 years.

Claims (5)

1. Telecommunication cable well, comprising a hollow body with a neck, a removable cover and a flat bottom, made as a unit with the formation of a monolithic structure with cable entries, characterized in that the hollow body is made in the form of a polygonal prism in a horizontal section, mainly hexagonal in shape , on the lateral surface of which are located the location of the cable entries, and on the upper protruding part of the housing there is a neck, made with the possibility of fixing it Removable cover. 2. The well according to claim 1, characterized in that the hollow body, made in the form of a polygonal prism, is equipped with stiffening ribs with a flat surface located between the faces of the polygonal prism. 3. The well under item 1, characterized in that the neck is made with a hole diameter equal to from 0.7 to 1 from a smaller overall size of the body in horizontal section. 4. The well according to claim 1, characterized in that the hollow body with a neck, cable entries and a neck cover are made by rotational molding from a melt 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, etc. liatsetaty, polyesters, polysulfones, epoxy compositions, compositions having a polymeric matrix containing reinforcing fibers. 5. 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.

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