RU88713U1 - WELL OF CABLE SEWERAGE - Google Patents

Abstract

1. A well of cable ducts comprising a monolithic body, a neck of the body and cable entries from at least two sides of the housing made of plastic, characterized in that it is equipped with a collapsible frame made of steel strands, and the housing is equipped with external stiffeners made with grooves on the inner side, in which the strands of the frame are placed, the width and height of the body and the diameter of the neck selected from the condition of ensuring the possibility of placing a person inside the body. ! 2. The well according to claim 1, characterized in that the cover is made of plastic. ! 3. The well according to claim 2, characterized in that the body and cover are made of polyethylene resistant to thermo-oxidative aging. ! 4. The well according to any one of claims 1 to 3, characterized in that the cover is threaded and provided with an annular seal. ! 5. A well according to any one of claims 1 to 3, characterized in that the casing is made in the form of a parallelepiped of a quadrangular section with faces rounded at the edges and with mutually perpendicular stiffeners. ! 6. The well according to claim 5, characterized in that the frame is made with rounded corner strands and with rectilinear longitudinal and transverse strands connected by threaded elements. ! 7. The well according to any one of claims 1 to 3, 6, characterized in that the cable entries are placed at least two on each side of the housing and are made in the form of plugged pipes. ! 8. The well according to any one of claims 1 to 3, 6, characterized in that it is equipped with a metal grounding pin.

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.

Wells of various designs are known, including for cable ducts SU No. 692939, 1470870, 1599491, RU No. 15999, DE No. 4122299, FR No. 2509343, GB No. 1577986.

Closest to the claimed utility model is a cable duct (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, prototype).

The disadvantages of the known device are low strength characteristics, the lack of the ability to quickly build complex configurations of the sewer connection, as well as the complexity of monitoring and maintenance of cable connections due to the inability to penetrate into it to humans.

The technical task of the utility model is to create an effective cable duct well and expand the arsenal of cable duct wells.

The technical result that ensures the solution of the problem lies in the fact that the strength characteristics of the well for use on truck routes and in seismically active areas are improved, the ability to quickly build the most complex (several cables in four mutually perpendicular directions) communication sewerage configurations is improved, and also improved conditions for installation, control and maintenance of cable connections due to the well being inhabited, i.e. ensuring the possibility of human work inside the housing and appropriate protection against electric shock (grounding).

The essence of the utility model consists in the fact that the well of cable ducts contains a monolithic body, a neck cover of the body, and cable entries from at least two sides of the body made of plastic, while it is equipped with a collapsible frame made of steel strands, and the body equipped with external stiffening ribs made with grooves on the inner side in which the strands of the frame are placed, the width and height of the body and the diameter of the neck selected from the condition of ensuring the possibility of placing a person inside the body.

Preferably, the lid is made of plastic, the body and the lid are made of polyethylene resistant to thermooxidative aging, the lid is threaded and provided with an annular seal, the body is made in the form of a quadrangular parallelepiped with rounded edges and mutually perpendicular stiffeners, the frame is made with rounded angled strands and with straight longitudinal and transverse strands connected by threaded elements, cable entries are placed at least two on each second side of the housing and formed as plugged nozzles, the well is provided with a metal grounding pin.

The drawing of figure 1 shows a General view of the well of cable ducts, figure 2 is a diagram of the installation of the well in the operational position, figure 3 is a horizontal section of the casing, figure 4 is a vertical section of the casing, figure 5 is a section at an angle 90 ° in FIG. 4.

The well of cable ducts contains a monolithic case 1, a cover 2 of the neck 3 of the case 1, and cable entries (nozzles) 4. The case 1 is equipped with external mutually perpendicular horizontal and vertical ribs of 5.6 stiffness, respectively, with a width of 75 mm and a height of 30 mm Volume i.e. the width, depth and height of the housing 1 (1284 × 984 × 1450 mm) and the diameter (550 mm) of the neck 3 are selected from the condition of ensuring the possibility of placing a person inside the housing 1.

The housing 1 and the cover 2 are made of plastic, preferably made of polyethylene, resistant to thermo-oxidative aging under the influence of soil and groundwater and other external factors. The housing 1 and cover 2 are made of plastic by the method of hot rotational molding of molten polyethylene grades LLDPE 558BP and LLDPE BP3775 (Republic of Korea).

The cover 2 is threaded and provided with an annular seal 7. The housing 1 is made in the form of a parallelepiped of a quadrangular section, with rounded edges (not indicated). Cable entries 4 are placed on at least two, in this case, on four sides (faces) of the housing 1 made of plastic. Additionally, the nozzles 4 can be placed on the additionally made protrusions 8. Cable entries 4 are made in the form of hermetically sealed in the delivered state nozzles 4, protruding 100 mm. The well (housing 1) is equipped with a metal grounding pin (not shown). The cover 2 is made with blind holes 9 on top.

Inside the housing 1, brackets and / or cable consoles and / or racks (not shown) are provided for the share of cable fastening, cable outlets and cable sleeves, as well as, if necessary, passive devices of telecommunication equipment.

The well is located in the pit 10 under the base plate 11, installed at the level of the backfill 12.

The well is equipped with a collapsible frame made of steel strands, and the outer ribs 5,6 stiffness of the housing 1 are made with grooves (not marked) on the inner side of the housing 1, in which the strands are placed. The frame is made with rounded corner strands 13, with rectilinear vertical longitudinal strands 14 and with horizontal transverse strands 15, interconnected by threaded elements 16, for example, bolts. Strands 13-15 are pipes with internal threaded inserts 17 at one or two edges. The number of strands corresponds to the number of ribs 5, 6 stiffness. In the grooves of the ribs 5, 6 that are continuous along the perimeter of the housing 1, closed frame frames of strands 13-15 are formed. On the strands 14, 15 are mounted standard mounting devices 18, for example, brackets and / or cable consoles.

The well of cable ducts is operated as follows. Previously, in the housing 1, the frame is assembled from strands 13-15. In this case, the strands are laid in the grooves of the ribs 5, 6. At the end (or both ends) of each pipe - strand 13-15, the head of the bolt (element) 16 is installed, and the threaded part of the latter is screwed into the threaded part of the insert 17 of the adjacent strand until the maximum possible extension strands 13-15 in the grooves of the ribs 5, 6. As a result, the strands 13-15 of the frame are fixed and cannot fall out of the grooves of the ribs 5, 6.

The housing 1 with the assembled frame of strands 13-15 is installed in the pit 10, the bottom of which is pre-aligned, rammed and, if necessary, equipped with a drainage system. The depth of the pit 10 for installing the well after filling and tamping the sand cushion with a height of 150-200 mm should be at least 1800 mm, to the corresponding mark of the road surface. The dimensions of the pit 10 in the plan should exceed the dimensions of the well by 400-500 mm, i.e. the length of the bottom of the pit 10 should be at least 2100 mm, and the width should be at least 1800 mm.

In the assembled form, the well sinks to the bottom of the pit 10 and is oriented so that the direction of its nozzles 4 coincides with the direction of the designed lines for laying the pipes of the cable pipeline.

The foundation pit 10 with a well for preliminary fixation of the latter is filled with sand, not reaching 50-70 mm to the level of the lower cable entries 4, while sand is compacted in layers, preferably with spilled water.

The holes are made in the corresponding nozzles 4, muffled in the delivery state, from the inside or outside of the housing 1. After that, the pipes are introduced and sealed, cables are laid through the nozzles 4, and the electrical equipment is installed inside the well.

The volume of the housing 1 and the diameter of the neck 3 are selected to ensure that a person can be placed inside the housing 1. Therefore, the electrician is able to carry out installation work and connect the cables and devices to the brackets and / or cable consoles and / or racks while inside the housing 1 in a rather convenient stable the situation using the necessary tools and with reliable visual control of the quality of work, which ensures reliable connections and operation of the entire cable telecommunication network as a whole. The presence of several nozzles 4 on the sides of the housing 1 allows you to use the well as a passage, angular and / or branching (with cable laying in several directions). Unused nozzles 4 are stored in delivery condition, i.e. muffled, and can not cause a violation of the tightness and the penetration of groundwater.

Next is the filling of the well.

Before filling the housing 1, it is necessary to tightly close the cover 3. Between the neck 3 and the cover 2, a rubber sealing ring 1700 mm long with a diameter of 8 mm is laid. The twisting of the cover 2 is performed with a socket wrench, for the installation of which holes 9 are used.

Backfill of the installed polyethylene well 12 is carried out with sand without stone or other inclusions with a layer-by-layer tamping of sand with a wooden tamper. In this case, the thickness of each new layer for tamping should not exceed 250 mm. Each tamped layer is recommended to be shed with water.

The installation of the base plate 11, the access hatch, the support rings is carried out according to the same technology as for reinforced concrete wells.

At the same time, a small mass of the well (the mass of plastic wells compared to reinforced concrete wells of the same size is 8 times less). This allows you to reduce the cost of transportation to the installation site, carry out loading and unloading, installation and orientation along the cable line of the wells without the use of lifting mechanisms.

The use of polyethylene as the material of the 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 presence of an internal collapsible metal frame of steel strands 13-15 allows:

- mount the frame, both in the factory and in the field;

- provides rigidity for the entire period of operation of the well;

- allows fastening, laying, installation of cables, couplings and equipment inside the well of various design configurations.

The polyethylene 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 structural pipes (inputs) 4 for pipes allows tracing the cable line with high accuracy (which is important for complex cable ducts).

The design of the housing 1 and the outlet neck 3 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 cargo vehicles, which is confirmed by field tests.

The nozzles (pipe inlets) 4 are made in the initial (delivery) state, plugged with a blind hole, the end wall of which is integral with the cylindrical walls and with the housing 1 (without a through hole), which ensures complete tightness and the ability to use only the necessary nozzles for the bushings for various types of pipes (for the input of which the required hole of the required diameter is drilled, and the input end of the tube outside the well is sealed with a heat-shrinkable tube).

Cable lines in housing 1 practically do not require routine maintenance for 50 years. During the operation of the cable network, the well does not allow water and aggressive media to be exposed to the cables and retains the ability to check, if necessary, the condition of the connections and cables directly from inside the housing 1 without repeated earthwork. The grounding eliminates the accumulation of static electricity on the housing 1. The presence of stiffening ribs 5, 6 and a frame of steel strands 13-15 do not allow the deformation of housing 1 during the passage of freight vehicles and ground movement in seismically active areas of operation.

Thus, an effective cable duct well was created and the arsenal of cable duct wells was expanded.

At the same time, the strength characteristics of the well are improved, which makes it possible to run into the well of freight vehicles, it is possible to quickly build complex configurations of communication sewerage, protection against electric shock is provided, and the conditions for monitoring and servicing cable connections are improved due to the well being inhabited, i.e. . providing the possibility of placing a person inside the case.

Claims (8)

1. A well of cable ducts comprising a monolithic body, a neck of the body and cable entries from at least two sides of the housing made of plastic, characterized in that it is equipped with a collapsible frame made of steel strands, and the housing is equipped with external stiffeners made with grooves on the inner side in which the strands of the carcass are placed, the width and height of the body and the diameter of the neck selected from the condition of ensuring the possibility of placing a person inside the body. 2. The well according to claim 1, characterized in that the cover is made of plastic. 3. The well according to claim 2, characterized in that the body and cover are made of polyethylene resistant to thermo-oxidative aging. 4. The well according to any one of claims 1 to 3, characterized in that the cover is threaded and provided with an annular seal. 5. A well according to any one of claims 1 to 3, characterized in that the casing is made in the form of a parallelepiped of a quadrangular section with faces rounded at the edges and with mutually perpendicular stiffeners. 6. The well according to claim 5, characterized in that the frame is made with rounded corner strands and with rectilinear longitudinal and transverse strands connected by threaded elements. 7. The well according to any one of claims 1 to 3, 6, characterized in that the cable entries are placed at least two on each side of the housing and are made in the form of plugged pipes. 8. The well according to any one of claims 1 to 3, 6, characterized in that it is equipped with a metal grounding pin.