RU151584U1 - WELL OF OPERATIONAL ACCESS - Google Patents

Abstract

1. Well access, comprising a hollow body with a neck, made as a whole with the formation of a monolithic structure with stiffeners, the neck cover and the locations of the holes for cable channels, characterized in that the hollow body is made in the form of a rectangular box-shaped with a flat bottom, contains four lateral surfaces, on two opposite lateral surfaces are located the location of the holes for the cable channels, and the neck of the housing, located on the upper part of the housing, one with the lateral surfaces inclined ploskostyami.2. The well according to claim 1, characterized in that the upper surface of the casing and the outer side surfaces of the casing are made in the form of alternating flat surfaces with vertical box-shaped protrusions with a flat surface, said vertical box-shaped protrusions acting as stiffeners. 3. The well according to claim 1, characterized in that the locations of the holes for the cable channels on the outer surface of the housing are made in the form of flat protruding sections, for example, in the form of a rectangle, circle, ellipse. 4. The well according to claim 1, characterized in that the hollow body with the neck, the neck cover and the location of the holes for the cable ducts are made by rotational molding 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

Description

The proposed utility model relates to the infrastructure of underground communications, in particular to underground structures, such as manholes, manholes, manholes and other devices, and is intended primarily for the installation of cable lines and their inspection. The well of operational access is used in the construction of trunk optical routes. It is used for placement and protection of technological stocks of fiber optic cable, location and maintenance of optical couplings.

During the construction of small-channel communication facilities for small-capacity stations, the cables are connected through a telephone drainage pit or prefabricated wells of minimum standard sizes are used for these purposes. The walls of the pit are bricked, which is extremely inefficient in time and cost. (Instructions for the design of linear-cable communication facilities, approved by Order of the Ministry of Communications of the Russian Federation No. 168 of 07.15.93; Baron D.A. et al. Directory of the builder of cable communication facilities. M, Communication, 1979. - 704 s).

In the known device (RU No. 44693 U, ΜΠΚ E02D 29/12, publ. February 27, 2005), the pit is made in the form of a glass with equal height and outer diameter. The outer diameter of the glass edge corresponds to the diameter of the standard manhole cover of the sewer network wells.

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 made of a polymeric material, a housing, a tray, a supporting 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.

Closest to the claimed utility model is a well of cable ducts, comprising a housing having a bottom, a cover, stiffeners and openings (cable channels) for a cable (RU 132828 U1, IPC E04H 5/06, published September 27, 2013). The well of cable ducts contains a housing having a bottom, a cover, stiffeners and openings (cable channels) for the cable. The technical result is achieved due to the fact that 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, Serving for installation of cable channels when laying a cable. Moreover, at the locations of the holes 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 Well installed pockets for mounting fittings. 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.

The objective of the proposed technical solution is to create the design of the well, expanding the arsenal of tools used as wells for quick access.

The task is achieved due to the fact that the well access, containing a hollow body with a neck, made as a unit with the formation of a monolithic structure with stiffeners, the neck cover and the location of the holes for cable channels.

The hollow rectangular box-shaped case with a flat bottom contains a neck with a lid on the upper surface, four lateral surfaces, locations for cable channels are located on two opposite sides, and the body neck located on the upper surface of the housing is connected to the inclined side surfaces planes.

The upper surface of the housing and the outer side surfaces of the housing are made in the form of alternating flat surfaces with vertical box-shaped protrusions with a flat surface, and these vertical box-shaped protrusions act as stiffeners.

The location of the holes for the cable channels on the outer surface of the housing is made in the form of flat protruding sections, for example, in the form of a rectangle, circle, ellipse.

The hollow body with the neck, the neck cover and the location of the holes for the cable ducts are made by rotational molding of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, net 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 polyaceta s, polyesters, polysulfones, epoxy compositions, compositions having a polymeric matrix containing reinforcing fibers.

The volume of the case and the diameter of the neck are selected from the conditions for creating a zone in the cavity of the case for the placement and protection of technological stocks of fiber optic cable, the location and maintenance of optical couplings.

The internal cavity of the housing has a predominantly box-shaped shape.

The accompanying drawings show:

in FIG. 1 - a general view of a well 1 of operative access in volumetric (axonometric projection);

in FIG. 2 is a General view of the well 1 operational access with the cover 3 removed, and through the neck 2 of the well, the internal parts of the housing are visible.

The hollow rectangular box-shaped housing 1 with a flat bottom comprises a neck 2 with a cover 3 on the upper surface, four side surfaces 4, two opposite sides of the surfaces 4 are located 5 for cable channels, and the neck of the housing located on the upper surface of the housing connected to the side surfaces by inclined planes 6.

The upper surface of the housing 1 and the outer side surfaces 4 of the housing are made in the form of alternating flat surfaces with vertical box-shaped protrusions 7 with a flat surface, and these vertical box-shaped protrusions 7 act as stiffeners. The locations of the holes 5 for the cable channels on the outer surface of the housing are made in the form of flat protruding sections, for example, in the form of a rectangle, circle, ellipse.

The hollow body 1 with the neck 2, the neck cover 3 and the location of the holes 5 for the cable channels are made by rotational molding from the 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 poly etat, polyesters, polysulfones, epoxy compositions, compositions having a polymeric matrix containing reinforcing fibers.

The volume of the housing 1 and the diameter of the neck 3 are selected from the conditions for creating a zone in the cavity of the housing 8 for the placement and protection of technological stocks of fiber optic cable, the location and maintenance of optical couplings. The internal cavity of the housing has a predominantly box-shaped shape. The locations of the openings for the cable channels are made in the original (delivery) state, plugged with blind holes, which ensures complete tightness and the ability to use only the necessary cable entries for the various types of pipes (for the input of which the required hole is drilled with the required diameter, and the input end of the pipe the outside of the well is sealed, for example, using a heat-shrinkable tube). The well of operational access is used in the construction of trunk optical routes. It is used for placement and protection of technological stocks of fiber optic cable, location and maintenance of optical couplings. The well is made of high strength polyethylene. It is installed underground and used during installation and maintenance of fiber optic links. The well is airtight and withstands temperature extremes from -50 ° C to + 60 ° C, is not susceptible to corrosion, shockproof. Cable entry into the well is made through distribution polyethylene pipes. Wells of operational access are economical in operation, do not respond to freezing, temperature changes, biological and chemical pollution, stray currents, mechanical shocks, are easy to install, transport and store. Preferred overall dimensions: 1000 mm × 800 mm × 500 mm. The low weight of the well reduces transportation costs to the installation site. Loading and unloading, installation and orientation along the cable line of the wells can be carried out without the use of lifting mechanisms.

A monolithic plastic well has high mechanical strength, while it is possible to transport the well by any means of transport and to inaccessible areas on any roads.

The dimensions and their values contained in this document should not be construed as strictly limited to the exact values given. All documents referenced in the present description, including references to other patents and applications, are cited in part or with limitations. In addition, if any meaning or definition of a concept in this document does not coincide with the meaning or definition of a given concept in a referenced document, one should be guided by the meaning or definition of a given concept contained in this document. Despite the fact that this document illustrates and describes specific embodiments of a particular technical solution, it will be obvious to those skilled in the art that other changes and modifications to the product are possible without violating the idea and purpose of the proposed technical solution.

Claims (6)

1. Well access, comprising a hollow body with a neck, made as a whole with the formation of a monolithic structure with stiffeners, the neck cover and the locations of the holes for cable channels, characterized in that the hollow body is made in the form of a rectangular box-shaped with a flat bottom, contains four lateral surfaces, on two opposite lateral surfaces are located the location of the holes for the cable channels, and the neck of the housing, located on the upper part of the housing, one with the lateral surfaces inclined planes. 2. The well according to claim 1, characterized in that the upper surface of the casing and the outer side surfaces of the casing are made in the form of alternating flat surfaces with vertical box-shaped protrusions with a flat surface, said vertical box-shaped protrusions acting as stiffeners. 3. The well under item 1, characterized in that the location of the holes for the cable channels on the outer surface of the housing is made in the form of flat protruding sections, for example, in the form of a rectangle, circle, ellipse. 4. The well according to claim 1, characterized in that the hollow body with the neck, the neck cover and the location of the openings for the cable channels are made by rotational molding of low, medium, high pressure polyethylene, spatially crosslinkable polyethylene, mesh polyethylene, polyamide from the melt, polycarbonate, polypropylene, from thermosetting polymeric materials such as polyurethanes, nylon, polyvinyl chloride, fluorinated polymers, polyolefins, vinyls, polystyrene, polyacryl and polymethacryl, diene elastomers, those rmoplastic 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 volume of the hollow body and the diameter of the neck are selected from the conditions for creating a zone in the body cavity for the placement and protection of technological stocks of fiber optic cable, the location and maintenance of optical couplings. 4. The well according to claim 1, characterized in that the internal cavity of the housing has a predominantly box-shaped shape.

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