CN211200451U - Extensible utility tunnel - Google Patents
Extensible utility tunnel Download PDFInfo
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- CN211200451U CN211200451U CN201921060990.2U CN201921060990U CN211200451U CN 211200451 U CN211200451 U CN 211200451U CN 201921060990 U CN201921060990 U CN 201921060990U CN 211200451 U CN211200451 U CN 211200451U
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- rectangular
- pipe
- pipe gallery
- utility tunnel
- piping lane
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Abstract
The utility model relates to an extensible utility tunnel belongs to utility tunnel construction field. The utility model discloses a pipe gallery, extension pipe gallery, extension pipe gallery are connected through connecting the storehouse, it is rectangular cross section to connect the storehouse, is formed by section of jurisdiction one, section of jurisdiction two, rectangular connection roof beam built-up connection, and its inner wall a week system has two recesses that are parallel to each other, the recess width is unanimous with rectangular connection roof beam width, rectangular connection roof beam is rectangular frame structure, arranges the recess in connecting the storehouse in, links to each other through the bolt with connecting the storehouse, pipe gallery, extension pipe gallery and the rectangular connection roof beam on being connected the storehouse are through bolted connection. This piping lane is connected the storehouse through setting up between the piping lane of pre-connection, sets up the rectangular connection frame in connecting the storehouse, and piping lane and rectangular connection frame are through bolted connection, realize the extensible connection between the piping lane.
Description
Technical Field
The utility model belongs to utility tunnel construction field especially relates to an extensible utility tunnel.
Background
The utility tunnel system not only solves the problem of urban traffic jam, but also greatly facilitates the maintenance and overhaul of municipal facilities such as electric power, communication, gas, water supply and drainage and the like. In addition, the system also has a certain shockproof and disaster reduction effect. For example, in 1995, during the great earthquake of Osaka, Japan, a large number of houses in the Shenhu city collapse and roads are damaged, but most of local underground comprehensive pipe galleries are intact, so that the difficulty of post-earthquake disaster relief and reconstruction work is greatly reduced. The utility tunnel plays an important role in meeting the basic demands of the civilian life and improving the comprehensive bearing capacity of the city.
The utility tunnel construction avoids the influence and interference on traffic and resident trip caused by frequently digging the road for laying and maintaining underground pipelines, and keeps the road appearance complete and beautiful. The cost of repeated repair of the road surface and the maintenance cost of the engineering pipeline are reduced. The integrity of the pavement and the durability of various pipelines are maintained. Is convenient for laying, increasing, decreasing, maintaining and daily managing various pipelines. The pipeline arrangement in the utility tunnel is compact and reasonable, the space under the road is effectively utilized, and the urban land is saved. The number of the posts of the road and the inspection wells, rooms and the like of various pipelines is reduced, and the urban landscape is beautiful. The overhead pipelines enter the ground together, so that the contradiction between the overhead pipelines and greening is reduced.
The construction of the domestic comprehensive pipe gallery starts late. Before the reform is opened, pipeline corridors are generally arranged only in underground spaces of large public buildings or large industrial enterprises according to needs, or only comprehensive cable ditches mainly for weak current are simply placed. The first municipal comprehensive pipe gallery appears in 1994, and according to the planning requirement of constructing a Pudong new area in high-level development, after necessary technical data collection in the early stage and relevant subject research, a poplar road is developed in the Pudong new area in Shanghai to construct the first large-scale comprehensive pipe gallery in China. The overall length of the comprehensive pipe gallery is about 11km, and the comprehensive pipe gallery is buried under sidewalks on two sides of a road. The utility tunnel body is of a reinforced concrete structure, the cross section of the utility tunnel body is rectangular, and the utility tunnel body consists of a gas chamber (a single chamber is internally provided with a gas pipeline) and a utility chamber (internally provided with various communication, electric power and water supply pipes). According to the requirement of the operation management of the comprehensive pipe gallery, the auxiliary facility system of the Zhang Yangyuan comprehensive pipe gallery comprises a fire fighting, ventilation, drainage, power supply and illumination, monitoring management, information collection and processing system and the like in the comprehensive pipe gallery.
In order to meet the development requirements of urban construction in China, the underground space resources of cities are fully utilized, and various types of underground municipal pipe network facilities of the cities are gradually changed into centralized and unified urban underground pipeline comprehensive corridors. The urban underground pipeline comprehensive corridor is also called a comprehensive pipe gallery, namely a tunnel space is built underground such as an urban road, a factory area and the like, two or more municipal public pipelines such as electric power, communication, fuel gas, heat supply, water supply and drainage and the like are laid in the same structure, and a special feed opening, a vent opening, an access opening and a detection system are arranged to ensure the normal operation of the urban underground pipeline comprehensive corridor.
At present, assembled utility tunnel china begins to rise, but there is the atress problem mostly in the current assembled utility tunnel, the difficult problem of construction connection, and the higher problem of cost, and the production of founding, there is the difficulty in transportation and construction, and along with utility tunnel's quick application, current utility tunnel probably can not satisfy the operation requirement in the future, utility tunnel's coverage has not satisfied the expansion in city, it will certainly cause very big waste to plan utility tunnel circuit again, consequently, develop an extensible utility tunnel structure and become the problem of treating the solution urgently.
Disclosure of Invention
In order to solve the technical problem that exists, the utility model provides an extensible utility tunnel, this piping lane is through setting up the connection storehouse between the piping lane of pre-connection, sets up the rectangular connection frame in the connection storehouse, and piping lane and rectangular connection frame are through bolted connection, realize the extensible connection between the piping lane.
The utility model adopts the technical scheme as follows:
the utility model provides an extensible utility tunnel, utility tunnel includes interconnect's piping lane, extension piping lane, extension piping lane are the rectangle piping lane, link to each other through connecting the storehouse between piping lane, the extension piping lane, connect the storehouse to be the rectangle cross-section, are formed by section of jurisdiction one, section of jurisdiction two, rectangular connection roof beam-built-up connection, section of jurisdiction one is roof and bottom plate, and section of jurisdiction two is the lateral wall of both sides, and section of jurisdiction one assembles the rectangle frame with section of jurisdiction two, and its inner wall a week system has two recesses that are parallel to each other, the recess is on a parallel with the horizontal limit of equipment back rectangle frame, the recess width is unanimous with rectangular connection roof beam-width, rectangular connection roof beam is rectangular frame structure, arranges in the recess in connecting the storehouse in, links to each other through the bolt with connecting the storehouse, piping lane, extension piping lane and the rectangular connection roof beam-through bolted connection on the storehouse.
Further, construction grooves are formed in the joints of the pipe gallery and the extension pipe gallery and the connecting bin.
Furthermore, the other side of the connecting bin is connected with a plugging plate through a bolt, the top of the plugging plate is provided with a construction groove, and a hoisting ring is arranged in the construction groove.
Furthermore, after the first duct piece and the second duct piece are installed, prestressed tendons are arranged on the inner side of the side wall for reinforcement.
Furthermore, the thickness of the first duct piece and the second duct piece is equal to the wall thickness of the pipe gallery, the depth of the grooves in the first duct piece and the second duct piece is 30-50mm, the grooves are symmetrically arranged in the longitudinal direction, the upper top surface of the embedded nut and the grooves are at the same horizontal height, and the preformed hole penetrates through the second duct piece in the vertical direction.
Furthermore, the height of the rectangular connecting beam embedded into the first duct piece and the height of the second duct piece are 30-50mm, the extending height of the rectangular connecting beam is equal to the wall thickness of the duct, and the rectangular connecting beam is connected with the first duct piece and the second duct piece by screwing bolts into the embedded nuts.
Furthermore, the thickness of the plugging plate is equal to the wall thickness of the pipe gallery, the section size of the plugging plate is matched with the size of the cross section of the connecting bin, and the construction groove at the position of the hoisting ring is repaired by waterproof materials after hoisting is completed.
The utility model has the advantages that:
construction convenience, simple structure, structural design is reasonable, and the atress is good, and construction speed is fast, and is efficient, and the transportation is convenient, and is not fragile in the transportation, and the level of assemblization is high, and the practicality is good, and application scope is wide, and economic effect is good, avoids the cast in situ concrete moreover, and pollution abatement reduces the cost.
Drawings
FIG. 1 is a schematic view of the connection of a pipe gallery with a connecting bin and a plugging plate;
FIG. 2 is a schematic longitudinal cross-sectional view of FIG. 1;
FIG. 3 is a schematic cross-sectional view of the connection of a tube lane with a connection silo and an extension tube lane;
FIG. 4 is a schematic view of a connecting bin;
FIG. 5 is a schematic longitudinal sectional view of the connecting bin;
FIG. 6 is a schematic front view of a connection bin;
FIG. 7 is a schematic view of a segment;
FIG. 8 is a schematic view of segment two;
FIG. 9 is a schematic view of a rectangular connecting beam;
FIG. 10 is a schematic front view of a closure plate;
fig. 11 is a schematic side view of the occlusion plate.
The components in the figure: the pipe comprises a pipe gallery 1, an extension pipe gallery 2, a connecting bin 3, a first pipe piece 3-1, a rectangular connecting beam 3-2, a second pipe piece 3-3, a construction groove 4, a preformed hole 5, a bolt 6, a reserved nut 7, a prestressed rib 8, a plugging plate 9, a hoisting ring 10 and a groove 11.
Detailed Description
The present invention will be described in detail with reference to the following drawings and examples:
the utility model relates to an extensible utility tunnel, including interconnect's piping lane, extend the piping lane, connect the storehouse, the closure plate, the piping lane is piping lane commonly used, and the piping lane inner wall is provided with the construction groove, connect the storehouse and be the rectangle cross-section, form by section of jurisdiction one, section of jurisdiction two, rectangular connection roof beam built-up connection, section of jurisdiction one is roof and bottom plate respectively, and the recess is reserved on the section of jurisdiction one, and the recess is arranged the distance to section of jurisdiction one cross section direction edge and is less than the thickness of section of jurisdiction two or piping lane along cross section direction, and the distance of recess to section of jurisdiction one longitudinal edge equals the thickness of section of jurisdiction two, and the width of recess equals the width of rectangular connection roof beam, and the bottom of recess is provided with embedded nut, and section of jurisdiction two is the lateral wall of connecting the storehouse both sides, and the recess runs through section of jurisdiction two in vertical direction, and is vertical the same with the arrangement mode on the, The second segment of jurisdiction links together, and still consolidate through the prestressing tendons after the installation of first segment of jurisdiction, second segment of jurisdiction is accomplished, the rectangular connection roof beam on the connection storehouse passes through bolt and piping lane and connects, and the opposite side passes through the embedded nut on bolt and the shutoff board and connects, forms existing extensible utility tunnel system, be provided with the hoisting ring on the shutoff board, the connection that will connect storehouse and shutoff board when existing extensible utility tunnel system needs extension construction is demolishd, then passes through bolted connection with the extension piping lane and connects the hookup location of shutoff board on the storehouse.
The thickness of the first duct piece and the second duct piece is equal to the wall thickness of the duct, the depth of the grooves in the first duct piece and the second duct piece is about 30-50mm, the grooves are symmetrically arranged in the longitudinal direction, the upper top surface of the embedded nut and the grooves are at the same horizontal height, and the preformed hole penetrates through the second duct piece in the vertical direction.
The height of the rectangular connecting beam embedded into the first segment and the second segment is approximately equal to 30-50mm, the extending height of the rectangular connecting beam is equal to the wall thickness of the pipe gallery, and the rectangular connecting beam is connected with the first segment and the second segment by screwing bolts into embedded nuts.
The thickness of the plugging plate is equal to the wall thickness of the pipe gallery, the section size of the plugging plate is slightly smaller than the size of the cross section of the connecting bin, and the construction groove beside the hoisting ring is repaired by waterproof materials after hoisting is completed.
The extension pipe gallery is consistent with the specification and the structure of the pipe gallery.
Connect the storehouse and can dismantle and make pipe gallery and extension pipe gallery directly link to each other.
Example 1
As shown in figures 1-11, an extensible utility tunnel comprises a pipe gallery 1, an extension pipe gallery 2, a connection chamber 3 and a plugging plate 9, wherein the pipe gallery 1 is a common pipe gallery, the inner wall of the pipe gallery 1 is provided with a construction groove 4, the connection chamber 3 is a rectangular section and is formed by connecting a first segment 3-1, a second segment 3-3 and a rectangular connection beam 3-2 in a combined manner, the first segment 3-1 is a top plate and a bottom plate respectively, a groove 11 is reserved on the first segment 3-1, the distance from the groove 11 to the edge of the first segment 3-1 in the cross section direction is smaller than the thickness of the second segment 3-3 or the pipe gallery 1, the distance from the groove 11 to the longitudinal edge of the first segment 3-1 is equal to the thickness of the second segment, the width of the groove 11 is equal to the width of the rectangular connection beam 3-2, the bottom of the groove 11 is provided with a pre-buried nut 7, the second segment 3-3 is the side wall at both sides of the connecting bin 3, the groove 11 penetrates the second segment 3-3 in the vertical direction, the arrangement mode is the same as that on the first segment 3-1, the rectangular connecting beam 3-2 is provided with a reserved hole 5 which connects the rectangular connecting beam 3-2 with the first segment 3-1 and the second segment 3-3 through a bolt 6, the first segment 3-1 and the second segment 3-3 are reinforced through a prestressed tendon 8 after the installation is finished, the rectangular connecting beam 3-2 on the connecting bin 3 is connected with the pipe gallery 1 through the bolt 6, the other side is connected with a pre-embedded nut 7 on the plugging plate 9 through the bolt 6, an existing extensible comprehensive pipe gallery system is formed, the hoisting ring 10 is arranged on the plugging plate 9, the connecting bin 3 and the plugging plate 9 are removed when the existing extensible comprehensive pipe gallery system needs to be extended, the extension pipe gallery 2 is then connected to the connection bin 3 at the connection position of the plugging plate 9 by the bolts 6.
As shown in fig. 5-8, the thickness of the first segment 3-1 and the second segment 3-3 is equal to the wall thickness of the pipe gallery 1, the depth of the grooves 11 on the first segment 3-1 and the second segment 3-3 is about 30-50mm, the grooves 11 are longitudinally and symmetrically arranged, the upper top surface of the embedded nut 7 and the grooves 11 are at the same horizontal height, and the preformed hole 5 penetrates through the second segment 3-3 in the vertical direction.
As shown in fig. 5-6, the extensible utility tunnel is characterized in that the rectangular connecting beams 3-2 are embedded into the first segment 3-1 and the second segment 3-3 to have a height approximately equal to 30-50mm, the extending height of the rectangular connecting beams 3-2 is equal to the wall thickness of the tunnel 1, and the rectangular connecting beams 3-2 are connected with the first segment 3-1 and the second segment 3-3 by screwing the bolts 6 into the embedded nuts 7.
As shown in fig. 1, 2, 10 and 11, the thickness of the plugging plate 9 is equal to the wall thickness of the pipe gallery 1, the cross-sectional dimension of the plugging plate 9 is slightly smaller than the cross-sectional dimension of the connecting bin 3, and the construction groove 11 beside the hoisting ring 10 is repaired by waterproof material after hoisting is completed.
As shown in fig. 3, an extendable utility tunnel, the extension tunnel 2 is constructed in conformity with the specification of the tunnel 1.
Claims (7)
1. The utility model provides an extensible utility tunnel, utility tunnel includes interconnect's piping lane (1), extension piping lane (2), piping lane (1), extension piping lane (2) are rectangle piping lane, its characterized in that: the pipe gallery (1) and the extension pipe gallery (2) are connected through a connecting bin (3), the connecting bin (3) is of a rectangular section and is formed by combining and connecting a first pipe piece (3-1), a second pipe piece (3-3) and a rectangular connecting beam (3-2), the first pipe piece (3-1) is a top plate and a bottom plate, the second pipe piece (3-3) is a side wall on two sides, the first pipe piece (3-1) and the second pipe piece (3-3) are assembled into a rectangular frame, two parallel grooves (11) are formed in the periphery of the inner wall of the rectangular frame, the grooves (11) are parallel to the transverse edge of the assembled rectangular frame, the width of each groove (11) is consistent with that of the rectangular connecting beam (3-2), the rectangular connecting beam (3-2) is of a rectangular frame structure and is arranged in the groove (11) in the connecting bin (3) and connected with the connecting bin (3) through bolts (6), the pipe gallery (1), the extension pipe gallery (2) and the rectangular connecting beam (3-2) on the connecting bin (3) are connected through the bolt (6).
2. The extendable utility tunnel according to claim 1, wherein the pipe gallery (1) and the extension pipe gallery (2) are provided with construction grooves (4) at the connection part with the connection cabin (3).
3. An extendable utility tunnel according to claim 1, wherein the other side of the connecting cabin (3) is connected with a blocking plate (9) through a bolt (6), the top of the blocking plate (9) is provided with a construction groove (4) in which a hoisting ring (10) is arranged.
4. An extendable utility tunnel according to claim 1, wherein the inner side of the side wall is reinforced by the prestressed tendons (8) after the first (3-1) and the second (3-3) segments are installed.
5. The extendable utility tunnel according to claim 1, wherein the thickness of the first pipe piece (3-1) and the second pipe piece (3-3) is equal to the wall thickness of the pipe tunnel (1), the depth of the grooves (11) on the first pipe piece (3-1) and the second pipe piece (3-3) is 30-50mm, the grooves (11) are longitudinally and symmetrically arranged, the upper top surface of the embedded nut (7) and the grooves (11) are at the same horizontal height, and the preformed hole (5) penetrates through the second pipe piece (3-3) in the vertical direction.
6. The extendable utility tunnel according to claim 1, wherein the height of the rectangular connecting beams (3-2) embedded in the first pipe segment (3-1) and the second pipe segment (3-3) is 30-50mm, the extending height of the rectangular connecting beams (3-2) is equal to the wall thickness of the tunnel (1), and the rectangular connecting beams (3-2) are connected with the first pipe segment (3-1) and the second pipe segment (3-3) by screwing the bolts (6) into the embedded nuts (7).
7. An extendable utility tunnel according to claim 3, characterised in that the thickness of the blanking plate (9) is equal to the wall thickness of the tunnel (1), the cross-sectional dimension of the blanking plate (9) matches the cross-sectional dimension of the connecting silo (3), and the construction groove (4) at the lifting ring (10) is repaired with waterproof material after the lifting is completed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921060990.2U CN211200451U (en) | 2019-07-09 | 2019-07-09 | Extensible utility tunnel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921060990.2U CN211200451U (en) | 2019-07-09 | 2019-07-09 | Extensible utility tunnel |
Publications (1)
Publication Number | Publication Date |
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CN211200451U true CN211200451U (en) | 2020-08-07 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201921060990.2U Expired - Fee Related CN211200451U (en) | 2019-07-09 | 2019-07-09 | Extensible utility tunnel |
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CN (1) | CN211200451U (en) |
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2019
- 2019-07-09 CN CN201921060990.2U patent/CN211200451U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200807 Termination date: 20210709 |
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CF01 | Termination of patent right due to non-payment of annual fee |