CN214116695U - Modular prefabricated electric power communication water supply combined channel - Google Patents

Abstract

A modular prefabricated electric power communication water supply combined channel comprises an electric power pipeline channel, a communication pipeline channel, a water supply pipeline channel, a combined channel upper cover plate and a combined channel lower base plate; the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are arranged between the combined channel upper cover plate and the combined channel lower base plate in a rectangular array shape, are respectively formed by splicing a power pipeline channel module, a communication pipeline channel module and a water supply pipeline channel module, and are respectively internally provided with a power pipeline lining pipe, a communication pipeline lining pipe and a water supply pipeline lining pipe; the upper cover plate of the combined channel and the lower base plate of the combined channel are respectively formed by splicing an upper cover plate splicing plate and a lower base plate splicing plate. The utility model relates to a can dispose pipeline passageway module according to actual demand is nimble during with the construction, quick construction to arrange electric power, communication, water supply line in order, intensification in same underground space, greatly reduced the required underground space that occupies.

Description

Modular prefabricated electric power communication water supply combined channel

Technical Field

The utility model belongs to the technical field of the pipeline, concretely relates to prefabricated electric power communication of modularization feedwater combination passageway.

Background

At any time, the urban development and the function are improved, the overhead line is changed from the top to the bottom, the pipeline is changed, and other projects are implemented, and the urban existing road needs to be continuously built with underground pipeline channels. Power, communication, and water supply lines are the most common municipal utility lines, running on almost all municipal roads and residential areas. When underground pipelines are built, electric power, communication and water supply pipelines are horizontally arranged and laid according to a certain interval below a road, more underground space needs to be occupied, and the construction requirements can not be met by small roads with sections such as branches and residential area roads. And after the road needs to be excavated during construction, the processes of pipeline construction, concrete pouring maintenance and the like exist for power and communication pipelines, the processes of pipeline laying, splicing and the like exist for water supply pipelines, and the long broken road occupying construction time has great influence on road traffic and surrounding mature plots.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problem, a prefabricated electric power communication of modularization feedwater combination passageway is provided.

The purpose of the utility model can be realized by the following technical scheme: a modular prefabricated electric power communication water supply combined channel comprises an electric power pipeline channel, a communication pipeline channel, a water supply pipeline channel, a combined channel upper cover plate and a combined channel lower base plate;

the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are more than one and are arranged between the upper cover plate of the combined channel and the lower base plate of the combined channel in a rectangular array shape, the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are respectively formed by splicing a power pipeline channel module, a communication pipeline channel module and a water supply pipeline channel module, a power pipeline lining pipe, a communication pipeline lining pipe and a water supply pipeline lining pipe are respectively arranged in the power pipeline channel, the communication pipeline channel and the water supply pipeline channel, and the power pipeline lining pipes in two adjacent power pipeline channel modules, the communication pipeline lining pipes in two adjacent communication pipeline channel modules and the water supply pipeline lining pipes in two adjacent water supply pipeline channel modules are connected in a socket joint manner;

the combined channel upper cover plate and the combined channel lower base plate are respectively formed by splicing an upper cover plate spliced plate and a lower base plate spliced plate, the two sides of the upper cover plate spliced plate are respectively provided with a lower flanging along the edge, and the two sides of the lower base plate spliced plate are respectively provided with an upper flanging along the edge;

the upper surfaces of the power pipeline channel module, the communication pipeline channel module, the water supply pipeline channel module and the lower pad plate splicing plate and the lower surfaces of the power pipeline channel module, the communication pipeline channel module, the water supply pipeline channel module and the upper pad plate splicing plate are respectively provided with a convex-concave structure matched with each other.

Furthermore, the power pipeline channel module, the communication pipeline channel module and the water supply pipeline channel module are consistent in external dimension and are all of long strip-shaped structures with square sections.

Furthermore, both ends of the upper cover plate jointed plate and the lower cushion plate jointed plate are provided with a spliced structure. Furthermore, a first protruding portion and a first groove portion which are matched with each other are respectively arranged at two ends of the upper cover plate jointed plate, and a second protruding portion and a second groove portion which are matched with each other are respectively arranged at two ends of the lower base plate jointed plate.

Further, the upper surface of power pipeline passageway module, communication pipeline passageway module, water supply pipeline passageway module, lower bolster makeup all has the protruding muscle that extends along length direction more than two along the equidistant equipartition of width direction, and the lower surface of power pipeline passageway module, communication pipeline passageway module, water supply pipeline passageway module, upper padding plate makeup all has the recess that extends along length direction more than two along the equidistant equipartition of width direction, and the size of protruding muscle is unanimous with the size of recess, and the interval between the protruding muscle is unanimous with the interval between the recess.

Further, when the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are arranged into more than two layers, the pipeline channel modules of the two adjacent layers are arranged in a vertically staggered mode.

Compared with the prior art, the beneficial effects of the utility model are that: the electric power, communication and water supply pipeline channels are prefabricated into standardized pipeline channel modules with the same external dimension, the pipeline channel modules can be flexibly configured according to actual requirements during design and construction, construction is fast, the traditional processes of steel bar binding of pipes, formwork erecting, concrete casting in situ, concrete hardening and curing and the like are omitted, construction difficulty is reduced, and construction time is shortened; the surfaces of the pipeline channel module, the upper cover plate jointed plate and the lower cushion plate jointed plate are provided with convex-concave structures, so that the pipeline channel module, the upper cover plate jointed plate and the lower cushion plate jointed plate are easy to position and assemble; when the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are arranged into more than two layers, the pipeline channel modules of the two adjacent layers are arranged in a vertically staggered mode, and the stability of the combined channel is improved; the electric power, communication and water supply pipelines are orderly and intensively arranged in the same underground space, so that the underground space occupied by the pipelines is greatly reduced.

Drawings

Fig. 1 is a schematic view of a longitudinal section structure of the present invention.

Fig. 2 is a schematic view of a cross-sectional structure of the present invention.

Fig. 3 is another schematic cross-sectional structure of the present invention.

Fig. 4 is a schematic view of another cross-sectional structure of the present invention.

Fig. 5 is a schematic view of a longitudinal section structure of the power line channel module according to the present invention.

The parts in the figures are numbered as follows:

1 electric power pipeline channel module

2 communication pipeline channel module

3 water supply pipeline channel module

4 lining pipe of electric power pipeline

5 communication pipeline inner lining pipe

6 water supply pipeline inner lining pipe

7 upper cover plate splicing plate

701 lower flanging

702 first projection

703 first groove part

8 lower backing plate jointed board

801 upturning edge

802 second boss

803 a second groove portion.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings to make it clear to those skilled in the art how to practice the invention. While the invention has been described in connection with its preferred embodiments, these embodiments are intended to be illustrative, and not to limit the scope of the invention.

Referring to fig. 1 to 4, a modular prefabricated electric power communication water supply combined channel comprises an electric power pipeline channel, a communication pipeline channel, a water supply pipeline channel, a combined channel upper cover plate and a combined channel lower base plate. The power pipeline channel, the communication pipeline channel and the water supply pipeline channel are more than one and are arranged between the combined channel upper cover plate and the combined channel lower base plate in a rectangular array shape. The rectangular array may refer to fig. 2 to 4, such as 2 × 2 array in fig. 2, 2 × 3 array in fig. 3, and 1 × 3 array in fig. 4.

Each power pipeline channel is formed by splicing a plurality of power pipeline channel modules 1, more than one power pipeline lining pipe 4 is arranged in each power pipeline channel module 1, the power pipeline lining pipes 4 in two adjacent power pipeline channel modules 1 are connected in a socket-and-spigot manner, referring to fig. 5, one protruding end of each power pipeline lining pipe 4 is a socket, and the other protruding end of each power pipeline lining pipe 4 is a socket. Each communication pipeline channel is formed by splicing a plurality of communication pipeline channel modules 2, more than one communication pipeline lining pipe 5 is arranged in each communication pipeline channel module 2, the communication pipeline lining pipes 5 in two adjacent communication pipeline channel modules 2 are connected in a socket-and-spigot manner, and two ends of each communication pipeline lining pipe 5 can refer to the power pipeline lining pipe 4 in fig. 5. Each water supply pipeline channel is formed by splicing a plurality of water supply pipeline channel modules 3, more than one water supply pipeline lining pipe 6 is arranged in each water supply pipeline channel module 3, the water supply pipeline lining pipes 6 in two adjacent water supply pipeline channel modules 3 are connected in a socket joint mode, and two ends of each water supply pipeline lining pipe 6 can refer to the electric power pipeline lining pipe 4 in the graph 5.

The combined channel upper cover plate is formed by splicing a plurality of upper cover plate jointed plates 7, and lower turned edges 701 are arranged on two sides of each upper cover plate jointed plate 7. The combined channel lower base plate is formed by splicing a plurality of lower base plate jointed plates 8, and upper flanges 801 are arranged on two sides of each lower base plate jointed plate 8 along the edges.

The electric power pipeline channel module 1, the communication pipeline channel module 2 and the water supply pipeline channel module 3 are consistent in overall dimension and are of long strip-shaped structures with square cross sections, and are all prefabricated by adopting light concrete so as to reduce weight and facilitate transportation and assembly. When the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are arranged into more than two layers, the pipeline channel modules of the two adjacent layers are arranged in a vertically staggered mode.

The upper surfaces of the power pipeline channel module 1, the communication pipeline channel module 2, the water supply pipeline channel module 3 and the lower cushion plate jointed plate 8 and the lower surfaces of the power pipeline channel module 1, the communication pipeline channel module 2, the water supply pipeline channel module 3 and the upper cushion plate jointed plate are respectively provided with a convex-concave structure matched with each other for positioning when the pipeline channel module is installed. Specifically do in this embodiment, power pipeline passageway module 1, communication pipeline passageway module 2, water supply pipeline passageway module 3, the upper surface of lower bolster makeup 8 all has the protruding muscle that extends along length direction more than two along the equidistant equipartition of width direction, power pipeline passageway module 1, communication pipeline passageway module 2, water supply pipeline passageway module 3, the lower surface of upper bolster makeup all has the recess that extends along length direction more than two along the equidistant equipartition of width direction, the size of protruding muscle is unanimous with the size of recess, interval between the protruding muscle is unanimous with the interval between the recess.

The power pipeline lining pipe 4, the communication pipeline lining pipe 5 and the water supply pipeline lining pipe 6 are all made of materials with low friction coefficients so as to reduce the friction force when a power cable, a communication cable and a water pipe pass through. In this embodiment, each power pipeline channel module 1 is provided with 4 power pipeline lining pipes 4 with the caliber of phi 150mm, each communication pipeline channel module 2 is provided with 9 communication pipeline lining pipes 5 with the caliber of phi 110mm, and each water supply pipeline channel module 3 is provided with one water supply pipeline lining pipe 6 with the caliber of phi 300mm, so that the laying requirements of municipal utility pipelines of branches and residential roads can be met.

And splicing structures are arranged at two ends of the upper cover plate splicing plate 7 and the lower cushion plate splicing plate 8. Specifically, in this embodiment, two ends of each upper cover plate jointed plate 7 are respectively provided with a first protruding portion 702 and a first groove portion 703, and two ends of each lower cushion plate jointed plate 8 are respectively provided with a second protruding portion 802 and a second groove portion 803. Each upper cover plate jointed plate 7 and each lower cushion plate jointed plate 8 are formed by binding reinforcing steel bars with the diameter of 150mm and 12mm and pouring concrete with the grade of C30 or above so as to ensure the strength of the prefabricated components, the upper cover plate jointed plates 7 ensure the pressure resistance of pipelines, and the lower cushion plate jointed plates 8 ensure the installation flatness of pipeline channel modules. In addition, in this embodiment, the width of the upper cover plate jointed board 7 and the lower bolster jointed board 8 can accommodate 2-3 pipeline channel modules.

When the combined channel is constructed, the groove is excavated along the planning line position of the combined channel, and the lower cushion plate is paved and spliced to form the lower cushion plate of the combined channel after the bottom of the groove is leveled. And then, according to the pipeline scale of the planning design, quickly combining and assembling the power pipeline channel module 1, the communication pipeline channel module 2 and the water supply pipeline channel module 3, aligning and splicing bell sockets of the power pipeline lining pipe 4, the communication pipeline lining pipe 5 and the water supply pipeline lining pipe 6 to form a power pipeline channel, a communication pipeline channel and a water supply pipeline channel, and laying an upper cover plate splicing block on the power pipeline lining pipe, the communication pipeline channel and the water supply pipeline channel to form a combined channel upper cover plate for protecting the pipeline. When the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are arranged into more than two layers, the pipeline channel modules of the two adjacent layers are arranged in a vertically staggered mode, and therefore stability is improved. And after splicing, backfilling to finish the whole construction process, and laying a power line, a communication line and a flexible water supply pipe according to the development condition of the surrounding plots in the later stage.

It should be noted that many variations and modifications of the embodiments of the present invention are possible, which are fully described, and are not limited to the specific examples of the above embodiments. The above embodiments are merely illustrative of the present invention and are not intended to limit the present invention. In conclusion, the scope of the present invention should include those changes or substitutions and modifications which are obvious to those of ordinary skill in the art.

Claims (6)

1. A modular prefabricated electric power communication water supply combined channel is characterized by comprising an electric power pipeline channel, a communication pipeline channel, a water supply pipeline channel, a combined channel upper cover plate and a combined channel lower base plate;

the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are more than one and are arranged between the upper cover plate of the combined channel and the lower base plate of the combined channel in a rectangular array shape, the power pipeline channel, the communication pipeline channel and the water supply pipeline channel are respectively formed by splicing a power pipeline channel module, a communication pipeline channel module and a water supply pipeline channel module, a power pipeline lining pipe, a communication pipeline lining pipe and a water supply pipeline lining pipe are respectively arranged in the power pipeline channel, the communication pipeline channel and the water supply pipeline channel, and the power pipeline lining pipes in two adjacent power pipeline channel modules, the communication pipeline lining pipes in two adjacent communication pipeline channel modules and the water supply pipeline lining pipes in two adjacent water supply pipeline channel modules are connected in a socket joint manner;

the combined channel upper cover plate and the combined channel lower base plate are respectively formed by splicing an upper cover plate spliced plate and a lower base plate spliced plate, the two sides of the upper cover plate spliced plate are respectively provided with a lower flanging along the edge, and the two sides of the lower base plate spliced plate are respectively provided with an upper flanging along the edge;

the upper surfaces of the power pipeline channel module, the communication pipeline channel module, the water supply pipeline channel module and the lower pad plate splicing plate and the lower surfaces of the power pipeline channel module, the communication pipeline channel module, the water supply pipeline channel module and the upper pad plate splicing plate are respectively provided with a convex-concave structure matched with each other.

2. The modular prefabricated electric power communication water supply combined channel according to claim 1, wherein the electric power pipeline channel module, the communication pipeline channel module and the water supply pipeline channel module are uniform in external dimension and are all of long strip-shaped structures with square sections.

3. The modular prefabricated electric power communication water supply combined channel as claimed in claim 1, wherein splicing structures are arranged at two ends of the upper cover plate splicing plate and the lower cushion plate splicing plate.

4. The modular prefabricated electric power communication water supply combined channel as claimed in claim 3, wherein the upper cover plate is provided with a first protrusion portion and a first groove portion at two ends thereof, and the lower base plate is provided with a second protrusion portion and a second groove portion at two ends thereof.

5. The modular prefabricated electric power communication water supply combined channel as claimed in claim 1, wherein two or more ribs extending in the length direction are uniformly distributed on the upper surfaces of the electric power pipeline channel module, the communication pipeline channel module, the water supply pipeline channel module and the lower cushion plate jointed plate at equal intervals in the width direction, two or more grooves extending in the length direction are uniformly distributed on the lower surfaces of the electric power pipeline channel module, the communication pipeline channel module, the water supply pipeline channel module and the upper cushion plate jointed plate at equal intervals in the width direction, the size of each rib is consistent with that of each groove, and the interval between each rib is consistent with that between each groove.

6. The modular prefabricated electric power communication water supply combined channel according to any one of claims 1 to 5, wherein when the electric power pipeline channel, the communication pipeline channel and the water supply pipeline channel are arranged into more than two layers, the pipeline channel modules of the two adjacent layers are arranged in a vertically staggered mode.

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