CN209323565U - comprehensive node of underground comprehensive pipe gallery - Google Patents

Abstract

The utility model relates to a comprehensive node of an underground comprehensive pipe gallery. A plurality of comprehensive nodes of the underground comprehensive pipe gallery are arranged at intervals in the longitudinal direction of the comprehensive pipe gallery, and the comprehensive nodes of each of the underground comprehensive pipe galleries include The node interlayer can communicate with multiple cabins in the comprehensive pipe corridor respectively, and the ventilation structure that can ventilate each cabin is set in the node interlayer, and the bottom of each cabin is equipped with a cabin that can be opened and closed. The interlayer of the node can communicate with the connecting cabin arranged outside the comprehensive pipe corridor, and the top of the connecting cabin is connected with the ground. The comprehensive nodes of the underground comprehensive pipe gallery set the node interlayer under the comprehensive pipe gallery to meet the ventilation and hoisting requirements of the comprehensive pipe gallery, avoid the influence of the depth of the covering soil, and have strong applicability.

Description

A comprehensive node of an underground comprehensive utility gallery

technical field

The utility model relates to the technical field of urban underground comprehensive pipe gallery, in particular to a comprehensive node of an underground comprehensive pipe gallery.

Background technique

The comprehensive pipe gallery is a structure and ancillary facilities built underground to accommodate two or more types of urban engineering pipelines. That is to build a tunnel space underground in the city, integrating various engineering pipelines such as power, communication, gas, heating, water supply and drainage, etc., with special inspection ports, hoisting ports and monitoring systems, which is an important basis for ensuring urban operation Facilities and "lifelines". The construction of comprehensive utility corridors can effectively eliminate urban "pull links", ensure smooth road traffic, and ensure safe operation of underground pipelines.

The comprehensive node includes vents and hoisting ports, and is an important part of underground structures such as comprehensive pipe corridors and underground spaces. Ventilation is a technology for ventilation to improve the production and living environment and create safe and hygienic conditions. The underground structure adopts vents to send fresh air into the underground structure and discharge polluted air at the same time. The hoisting port is set up to meet the requirements of pipeline installation, pipeline entry and exit, and pipeline installation in the underground comprehensive utility gallery.

In the prior art, the comprehensive node interlayer of the comprehensive pipe gallery is set above the pipe gallery, and the ventilation openings and hoisting openings of all cabins are opened on the top of the pipe gallery. In the actual process of the project, when the design covering depth of the pipe gallery cabin is about 3 meters, it can meet the requirements of the ventilation and hoisting interlayer above the pipe gallery. If the covering soil depth is small, it cannot satisfy the ventilation and hoisting interlayer above the pipe gallery .

Therefore, relying on many years of experience and practice in related industries, the inventor proposes a comprehensive node of an underground comprehensive utility gallery to overcome the defects of the prior art.

Utility model content

The purpose of the utility model is to provide a comprehensive joint of the underground comprehensive pipe gallery, which overcomes the problem that the applicability of the comprehensive joint interlayer is affected by the depth of the covering soil in the prior art. The comprehensive node of the underground comprehensive pipe gallery sets the joint interlayer The bottom of the comprehensive pipe gallery meets the ventilation and hoisting requirements of the comprehensive pipe gallery, avoids the influence of the depth of the covering soil, and has strong applicability.

The purpose of this utility model is achieved in this way, a comprehensive node of the underground comprehensive pipe gallery, the comprehensive nodes of the underground comprehensive pipe gallery are arranged at intervals in the longitudinal direction of the comprehensive pipe gallery, and the comprehensive nodes of each described underground comprehensive pipe gallery include The node interlayer is arranged under the comprehensive pipe gallery, and the node interlayer can communicate with multiple cabins in the comprehensive pipe gallery respectively. The ventilation structure that can ventilate each cabin is set in the node interlayer, and the bottom of each cabin is provided. And the hoisting opening of the cabin can be closed, the node interlayer can communicate with the connecting cabin arranged outside the integrated pipe gallery, and the top of the connecting cabin is connected with the ground.

In a preferred embodiment of the present utility model, the bottom of each cabin is provided with through ventilation openings, the ventilation structure is a fan whose one end is sealed and communicated with the inside of the ventilation opening, and the other end of the fan is located in the node interlayer .

In a preferred embodiment of the present utility model, an openable compartment sealing cover is provided at each compartment hoisting opening.

In a preferred embodiment of the present utility model, detachable movable guardrails are extended upwards at the ventilation openings and the hoisting openings of the cabins in each cabin.

In a preferred embodiment of the present invention, cabin climbing ladders are provided at the ventilation openings and the cabin hoisting openings in the node interlayer.

In a preferred embodiment of the present utility model, the top of the connecting cabin is provided with a general ventilation opening and a total lifting opening at intervals, an openable connecting cabin cover is provided on the top of the general lifting opening, and the opening of the general ventilation opening Ventilation windows are arranged on the side walls.

In a preferred embodiment of the present invention, the side walls of the connecting cabin are provided with ladders extending to the main ventilation opening and the main hoisting opening respectively.

In a preferred embodiment of the present utility model, the cabins in the integrated pipe gallery include a natural gas cabin, a communication cabin and a comprehensive cabin, and the cabin hoisting opening at the bottom of the natural gas cabin is set as the first cabin hoisting opening, and the ventilation at the bottom of the natural gas cabin Set the hoisting port at the bottom of the telecommunications cabin as the hoisting port of the second cabin, the vent at the bottom of the telecommunications cabin as the second vent, and set the hoisting port of the cabin at the bottom of the integrated cabin as the third cabin The hoisting port, the vent at the bottom of the integrated cabin is the third vent, and the hoisting port of the second cabin, the second vent, the hoisting port of the third cabin and the third vent are arranged in the same underground In the integrated node of the integrated utility gallery, the hoisting opening of the first cabin and the first ventilation opening are arranged in another integrated node of the underground integrated utility gallery.

In a preferred embodiment of the present utility model, the second ventilation opening and the second cabin hoisting opening are arranged at the same longitudinal position of the comprehensive pipe gallery, and the third ventilation opening and the third cabin hoisting opening are arranged at the same longitudinal position of the comprehensive pipe gallery. At the longitudinal position, the hoisting opening of the second cabin and the hoisting opening of the third cabin are set at the same longitudinal position of the integrated pipe gallery.

From the above, the comprehensive node of the underground comprehensive pipe gallery provided by the utility model has the following beneficial effects:

In the comprehensive node of the underground comprehensive pipe gallery provided by the utility model, the node interlayer is arranged below the comprehensive pipe gallery, and each cabin of the comprehensive pipe gallery adopts a downward ventilation method, and the parts in each cabin are hoisted from bottom to top. The connecting cabin and the comprehensive pipe gallery are set in parallel, without increasing the depth of the comprehensive pipe gallery, and avoiding the limitations caused by the depth. The connection between the node interlayer and the connecting cabin meets the ventilation and hoisting requirements of the comprehensive pipe gallery; the cabins of each cabin are hoisted Movable guardrails are set at the entrance to ensure the safety of the hoisting construction process; the comprehensive nodes of the underground comprehensive pipe gallery avoid the problem that the node interlayer cannot be set due to the small depth of covering soil, and have strong applicability.

Description of drawings

The following drawings are only intended to illustrate and explain the utility model schematically, and do not limit the scope of the utility model. in:

Fig. 1: It is the top view when the comprehensive node of the underground comprehensive pipe gallery of the utility model is connected with the natural gas tank.

Figure 2: It is a cross-sectional view at A-A in Figure 1.

Figure 3: It is a cross-sectional view at B-B in Figure 1.

Fig. 4: It is the top view when the comprehensive node of the underground comprehensive pipe gallery of the utility model is connected with the communication cabin and the comprehensive cabin.

Figure 5: It is a cross-sectional view at C-C in Figure 4.

Fig. 6: It is a sectional view at D-D in Fig. 4 .

In the picture:

100. The comprehensive node of the underground comprehensive utility gallery;

1. Node interlayer;

11. Cabin ladder;

2. Connecting cabin;

20. General ventilation opening; 21. General hoisting opening; 22. Connecting cabin cover; 23. Ventilation window; 24. Connecting cabin ladder;

3. Fan;

4. Compartment sealing cover;

5. Movable guardrail;

61. Hoisting port of the first compartment; 62. Hoisting port of the second compartment; 63. Hoisting port of the third compartment;

71. The first vent; 72. The second vent; 73. The third vent;

9. Comprehensive pipe gallery; 91. Natural gas tank; 92. Telecom cabin; 93. Comprehensive cabin.

Detailed ways

In order to have a clearer understanding of the technical features, purposes and effects of the utility model, the specific implementation of the utility model is now described with reference to the accompanying drawings.

As shown in Figures 1 to 6, the utility model provides a comprehensive node 100 of an underground comprehensive utility gallery, and a plurality of comprehensive nodes 100 of the underground comprehensive utility gallery are arranged at intervals in the longitudinal direction of the comprehensive utility gallery, and the comprehensive nodes of each underground comprehensive utility gallery 100 includes a node interlayer 1 arranged below the comprehensive pipe gallery 9, the node interlayer 1 can communicate with multiple cabins in the comprehensive pipe gallery 9 respectively, and a ventilation structure capable of ventilating each cabin is arranged in the node interlayer 1, and the bottom of each cabin is A cabin hoisting opening that can be opened and closed is provided, and the node interlayer 1 can communicate with the connecting cabin 2 arranged outside the integrated pipe gallery 9. The connecting cabin 2 is arranged parallel to the longitudinal direction of the integrated pipe gallery 9, and the top of the connecting cabin 2 communicates with the ground .

In the comprehensive node of the underground comprehensive pipe gallery provided by the utility model, the interlayer of nodes is arranged below the comprehensive pipe gallery, the parts in each cabin are hoisted in from bottom to top, and the connection between the interlayer of nodes and the connecting cabin meets the requirements of the integrated pipe. Ventilation and hoisting requirements of the corridor, the comprehensive nodes of the underground comprehensive pipe gallery avoid the problem that the node interlayer cannot be set due to the small depth of the covering soil, and have strong applicability.

Further, as shown in Fig. 1, Fig. 3, Fig. 4, and Fig. 6, the bottom of each cabin is provided with through ventilating openings, and the ventilating structure is a fan 3 whose end is sealed and connected to the ventilating port, and the other end of the fan 3 is located in the node interlayer 1 . The blower fan 3 sends fresh air into each compartment through the vents, and simultaneously discharges polluted air.

Further, as shown in Fig. 2 and Fig. 5, in order to ensure the mutual isolation of the cabins in the operation state of the integrated utility tunnel, the cabin sealing cover 4 that can be opened is provided at the hoisting port of each cabin.

Further, as shown in Fig. 2 and Fig. 5, in order to ensure construction safety, detachable movable guardrails 5 are extended upwards at the air vents and the hoisting ports of the cabins in each cabin. Install the movable guardrail 5 before hoisting, open the compartment sealing cover 4, and realize hoisting; after the hoisting is completed, seal the compartment sealing cover 4, and remove the movable guardrail 5.

Further, as shown in Fig. 1 to Fig. 6, in order to facilitate the construction personnel to enter and exit, cabin ladders 11 are provided at the air vents and cabin hoisting openings in the node interlayer 1.

Further, as shown in Fig. 2, Fig. 3, Fig. 5 and Fig. 6, the top of the connecting cabin 2 is provided with a total ventilation opening 20 and a total lifting opening 21 at intervals, and the top of the total lifting opening 21 is provided with an openable connecting cabin cover plate 22, Ventilation windows 23 are arranged on the side walls of the general ventilation opening 20 . The connecting cabin 2 meets the connection between the node interlayer 1 and the outside of the ground. The general lifting port 21 is used to hoist the ground materials into the node interlayer 1. After the hoisting is completed, the connecting cabin cover 22 is used to seal and cover the general lifting port 21 to prevent debris from entering . The ventilation window 23 meets the ventilation requirements of the comprehensive pipe gallery 9.

In order to make it easier for users to enter and exit, as shown in FIGS. 1 to 6 , connecting cabin ladders 24 are provided on the side walls of the communicating cabin 2 to extend to the main ventilation opening 20 and the main hoisting opening 21 respectively.

Further, as shown in Figures 1 to 6, under normal circumstances, the cabins in the integrated pipe gallery 9 include a natural gas tank 91, a telecommunications cabin 92 and an integrated cabin 93, and the cabin hoisting port at the bottom of the natural gas tank 91 is set as the first cabin Hoisting port 61, the vent at the bottom of the natural gas cabin 91 is the first vent 71, the cabin hoisting port at the bottom of the telecommunications cabin 92 is set as the second compartment hoisting port 62, and the vent at the bottom of the telecommunications cabin 92 is the second vent 72, set the cabin hoisting opening at the bottom of the integrated cabin 93 as the third cabin hoisting opening 63, and the ventilation opening at the bottom of the integrated cabin 93 as the third ventilation opening 73, because there may be gas leakage in the natural gas cabin 91, in order to ensure that other cabins and natural gas The sealing and isolation between the cabins 91, the hoisting opening 62 of the second cabin, the second ventilation opening 72, the hoisting opening 63 of the third cabin and the third ventilation opening 73 are set in the comprehensive node 100 of the same underground comprehensive pipe gallery, the hoisting opening of the first cabin The opening 61 and the first ventilation opening 71 are arranged in the comprehensive node 100 of another underground comprehensive utility gallery.

In this embodiment, for the convenience of construction, the second ventilation opening 72 and the second cabin hoisting opening 62 are set at the same longitudinal position of the integrated pipe gallery 9, and the third ventilation opening 73 and the third cabin hoisting opening 63 are set at the same longitudinal position of the integrated pipe gallery 9. At the same longitudinal position of the corridor 9, the hoisting port 62 of the second cabin and the hoisting port 63 of the third cabin are arranged at the same longitudinal position of the comprehensive pipe gallery 9.

From the above, the comprehensive node of the underground comprehensive pipe gallery provided by the utility model has the following beneficial effects:

In the comprehensive node of the underground comprehensive pipe gallery provided by the utility model, the node interlayer is arranged below the comprehensive pipe gallery, and each cabin of the comprehensive pipe gallery adopts a downward ventilation method, and the parts in each cabin are hoisted from bottom to top. The connecting cabin and the comprehensive pipe gallery are set in parallel, without increasing the depth of the comprehensive pipe gallery, and avoiding the limitations caused by the depth. The connection between the node interlayer and the connecting cabin meets the ventilation and hoisting requirements of the comprehensive pipe gallery; the cabins of each cabin are hoisted Movable guardrails are set at the entrance to ensure the safety of the hoisting construction process; the comprehensive nodes of the underground comprehensive pipe gallery avoid the problem that the node interlayer cannot be set due to the small depth of covering soil, and have strong applicability.

The above descriptions are only illustrative specific implementations of the present utility model, and are not intended to limit the scope of the present utility model. Any equivalent changes and modifications made by those skilled in the art without departing from the concept and principles of the present invention shall fall within the protection scope of the present invention.

Claims (9)

1. an integrated node of an underground comprehensive utility gallery, it is characterized in that the comprehensive node of a plurality of described underground integrated utility galleries is set at intervals in the longitudinal direction of the integrated utility gallery, and the integrated nodes of each described underground integrated utility gallery include the integrated nodes arranged in the integrated utility gallery The node interlayer below the corridor, the node interlayer can communicate with multiple cabins in the comprehensive pipe gallery respectively, the ventilation structure that can ventilate each cabin is set in the node interlayer, and the bottom of each cabin is equipped with an openable and closed The hoisting port of the cabin, the node interlayer can communicate with the connecting cabin arranged outside the integrated pipe gallery, and the top of the connecting cabin is connected with the ground. 2. The comprehensive node of the underground comprehensive utility gallery as claimed in claim 1, wherein the bottom of each cabin is provided with through ventilation openings, and the ventilation structure is a blower fan whose one end is sealed and communicated with the inside of the ventilation opening, and the blower blower The other end is located in the interlayer of the node. 3. The integrated node of the underground integrated utility gallery according to claim 2, wherein an openable cabin sealing cover is provided at each of the cabin hoisting openings. 4. The comprehensive node of the underground comprehensive utility gallery as claimed in claim 3, wherein, in each cabin, detachable movable guardrails are extended upwards at the ventilation openings and the lifting openings of the cabins. 5 . The comprehensive node of the underground comprehensive utility gallery according to claim 3 , wherein a cabin ladder is provided at the ventilation opening and the cabin hoisting opening in the node interlayer. 6 . 6. The comprehensive node of the underground comprehensive utility gallery as claimed in claim 1, wherein the top of the connecting cabin is provided with a total ventilation opening and a total lifting opening at intervals, and the top of the total lifting opening is provided with a connecting cabin that can be opened As for the cover plate, a ventilation window is arranged on the side wall of the general ventilation opening. 7. The comprehensive node of the underground comprehensive utility gallery according to claim 6, wherein the connecting cabin ladders are provided on the side walls of the communicating cabins respectively extending to the general ventilation opening and the general hoisting opening. 8. The integrated node of the underground integrated utility gallery as claimed in claim 2, wherein the cabins in the integrated utility gallery include a natural gas cabin, a telecommunications cabin and an integrated cabin, and the cabin hoisting port at the bottom of the natural gas cabin is set as the first The cabin hoisting port, the vent at the bottom of the natural gas tank is the first vent, the cabin hoisting port at the bottom of the telecommunications cabin is set as the second cabin hoisting port, the vent at the bottom of the telecommunications cabin is the second vent, and the integrated cabin is set The cabin hoisting opening at the bottom is the third cabin hoisting opening, the ventilation opening at the bottom of the integrated cabin is the third ventilation opening, the second cabin hoisting opening, the second ventilation opening, the third cabin hoisting opening and the first The three ventilation openings are arranged in the integrated node of the same underground comprehensive utility gallery, and the hoisting opening of the first cabin and the first ventilation opening are arranged in another integrated node of the underground comprehensive utility gallery. 9. The comprehensive node of the underground comprehensive utility gallery as claimed in claim 8, wherein the second ventilation opening and the second cabin hoisting opening are arranged at the same longitudinal position of the comprehensive utility gallery, and the third ventilation opening and the third cabin The hoisting openings are set at the same longitudinal position of the integrated pipe gallery, and the hoisting openings of the second cabin and the third cabin are set at the same longitudinal position of the integrated pipe gallery.