CN213143128U - Pipeline system of corridor type garage - Google Patents

Abstract

The utility model provides a corridor type garage pipeline system, which comprises a plurality of pipeline corridors arranged at the top of a garage, wherein each group of pipeline corridors comprises a first corridor, a second corridor and a third corridor from top to bottom, a gas pipeline and a cable line are arranged in the first corridor, and the gas pipeline, a strong current cable and a weak current cable are mutually isolated; a liquid pipeline is arranged in the second passage, and a water supply pipeline (a middle water pipe and a water supply pipe) and a water discharge pipeline (an air conditioner water discharge pipe) are isolated from each other; and a fire-fighting pipeline is arranged in the third corridor. The system is designed by fully considering the laying requirements of professional pipelines and combining the comprehensive pipeline optimization design principle, the pipelines are concentrated in the top corridor, the space is saved, the design is attractive, meanwhile, the pipelines/pipelines of different types are mutually isolated, the mutual influence is avoided, the management and the maintenance are convenient, and the system is suitable for being popularized and used in places such as underground garages with long and narrow shapes and limited clear heights.

Description

Pipeline system of corridor type garage

Technical Field

The utility model belongs to the technical field of the pipeline is laid, in particular to vestibule formula garage pipeline system.

Background

The reasonability and the function of the space of the underground garage of the residential district represent the perfection degree of the district management and the supporting facilities. In order to better serve the owner, the satisfaction degree of the owner is improved. Meanwhile, the construction of the underground garage electromechanical pipelines is conveniently carried out in an overall arrangement mode, the pipelines need to be arranged orderly, the garage clear height is well controlled, the parked vehicles are not adversely affected, and the vehicles can pass through the garage easily.

The underground garage has extremely high requirements on the arrangement of electromechanical pipelines in the range of the underground garage to ensure good vehicle parking function on the premise of determining the floor height and not increasing investment. The integrated pipeline is required to be completed within a limited range: all pipelines related to water supply and drainage, heating and ventilation and electric major, such as a water supply and drainage pipeline, a ventilation pipeline, a strong current tank box, a weak current tank box and the like, are orderly and reasonably arranged. The use functions of all the pipelines of the electromechanical profession are kept in the limited space, a later maintenance channel is reserved, and meanwhile, multiple requirements such as attractiveness are met, so that systematic arrangement design research needs to be carried out on the electromechanical pipelines in advance. Therefore, how to release more garage spaces while ensuring reasonable pipeline arrangement becomes a technical problem which needs to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a vestibule formula garage pipeline system.

The utility model discloses specific technical scheme as follows:

the utility model provides a vestibule type garage pipeline system, including a plurality of groups of mutually communicated pipeline vestibules arranged at the top of the garage, each group of pipeline vestibules comprises a first vestibule, a second vestibule and a third vestibule which are sequentially connected from top to bottom, the first vestibule comprises a first cabin and a second cabin which are horizontally arranged, the first cabin is used for laying gas pipelines, the second cabin comprises a first chamber and a second chamber which are vertically arranged, the first chamber is used for laying strong electric cables, and the second chamber is used for laying weak electric cables; the second corridor is used for laying a liquid pipeline, and the third corridor is used for laying a fire-fighting pipeline.

Furthermore, a first cable bridge is arranged in the first chamber, and the strong electric cable is laid on the first cable bridge; and a second cable bridge is arranged in the second chamber, and the weak current cable is laid on the second cable bridge.

Further, the gas pipeline comprises a wind pipe and an exhaust pipe.

Further, the liquid pipeline comprises a water-in pipe and a water-feeding pipe.

Further, the liquid pipeline still includes the air conditioner drain pipe, the second vestibule includes horizontally arranged third cabin and fourth cabin, well water pipe with the feed pipe is laid in the third cabin, the air conditioner drain pipe is laid in the fourth cabin.

Further, the fire fighting pipeline comprises a fire hydrant water pipe and a spray pipe; and a plurality of spraying openings are formed in the bottom of the third corridor, and the spray heads of the spraying pipes extend out of the spraying openings.

The utility model has the advantages as follows: the utility model provides a corridor type garage pipeline system, which comprises a plurality of pipeline corridors arranged at the top of a garage, wherein each group of pipeline corridors comprises a first corridor, a second corridor and a third corridor from top to bottom, a gas pipeline and a cable line are arranged in the first corridor, and the gas pipeline, a strong current cable and a weak current cable are mutually isolated; a liquid pipeline is arranged in the second passage, and a water supply pipeline (a middle water pipe and a water supply pipe) and a water discharge pipeline (an air conditioner water discharge pipe) are isolated from each other; and a fire-fighting pipeline is arranged in the third corridor. The system is designed by fully considering the laying requirements of professional pipelines and combining the comprehensive pipeline optimization design principle, the pipelines are concentrated in the top corridor, the space is saved, the design is attractive, meanwhile, the pipelines/pipelines of different types are mutually isolated, the mutual influence is avoided, the management and the maintenance are convenient, and the system is suitable for being popularized and used in places such as underground garages with long and narrow shapes and limited clear heights.

Drawings

FIG. 1 is an axial schematic view of the layout of a vestibule garage pipeline system according to an embodiment;

FIG. 2 is a radial schematic view of the layout of the piping system of the vestibule garage according to an embodiment;

FIG. 3 is a schematic radial configuration of a vestibule garage pipeline system according to an embodiment;

fig. 4 is an axial cross-sectional view of a third corridor in the corridor garage pipeline system according to the embodiment.

Wherein: 1. a first corridor; 11. a first compartment; 12. a first subchamber; 13. a second subchamber; 14. a strong current cable; 15. a weak current cable; 16. a first cable tray; 17. a second cable tray; 18. an air duct; 19. an exhaust pipe; 2. a second corridor; 21. a reclaimed water pipe; 22. a water supply pipe; 23. an air conditioner drain pipe; 24. a third compartment; 25. a fourth compartment; 3. a third corridor; 31. a fire hydrant water pipe; 32. a shower pipe; 32. and (4) a spraying port.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings.

Examples

As shown in fig. 1 to 4, embodiment 1 of the present invention provides a corridor type garage pipeline system, including a plurality of groups of mutually communicated pipeline corridors arranged at the top of a garage, each group of pipeline corridors includes a first corridor 1, a second corridor 2 and a third corridor 3 which are sequentially connected from top to bottom, the first corridor 1 includes a first cabin 11 and a second cabin which are horizontally arranged, the first cabin 11 is used for laying gas pipelines, the second cabin includes a first compartment 12 and a second compartment 13 which are longitudinally arranged, the first compartment 12 is used for laying a strong current cable 14, and the second compartment 13 is used for laying a weak current cable 15; the second vestibule 2 is used for laying liquid pipelines, and the third vestibule 3 is used for laying fire-fighting pipelines.

A first cable bridge 16 is arranged in the first chamber 12, and a strong electric cable 14 is laid on the first cable bridge 16; a second cable bridge 17 is arranged in the second chamber 13, and the weak current cable 15 is laid on the second cable bridge 17; the gas pipeline comprises an air pipe 18 and an exhaust pipe 19 and is used for exchanging indoor and outdoor gas.

The liquid pipeline comprises a reclaimed water pipe 21, a water supply pipe 22 and an air-conditioning drain pipe 23, the second corridor 2 comprises a third cabin 24 and a fourth cabin 25 which are horizontally arranged, the reclaimed water pipe 21 and the water supply pipe 22 are arranged in the third cabin 24 and used for conveying reclaimed water and domestic water respectively, and the air-conditioning drain pipe 23 is arranged in the fourth cabin 25 and used for outputting air-conditioning condensate water.

The fire fighting pipeline comprises a fire hydrant water pipe 31 and a spray pipe 32, and supplies water for the fire hydrant and the spray head for spraying respectively; the bottom of the third corridor 3 is provided with a plurality of spraying openings 33, and the spray heads of the spraying pipes 32 extend out of the spraying openings 33 so as to spray and extinguish fire when needed.

The design of the system fully considers the layout requirements of professional pipelines, combines the optimization design principle of comprehensive pipelines, and arranges the power supply pipeline, the metal pipeline (cable bridge) and the gas pipeline on the uppermost layer together and separates the gas pipeline from the power supply pipeline, so as to save space and ensure that the gas circuit and the cable work normally and do not influence each other; the fire-fighting pipeline is arranged at the lowest layer so as to supply fire-fighting water in time; the liquid pipeline is arranged in the middle layer, and the air conditioner drain pipe 23 is separated from the middle water pipe 21 and the water supply pipe 22 so as not to influence each other, because the water supplied by the middle water pipe 21 and the water supply pipe 22 comes from the outside and has low temperature, and the air conditioner condensate water is formed by condensing water vapor in high-temperature air and has higher temperature. The system saves space, has attractive design, is convenient to manage and maintain, and is suitable for being popularized and used in places such as underground garages with long and narrow shapes and limited clear heights.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as the present invention, fall within the protection scope of the present invention.

Claims (6)

1. The corridor type garage pipeline system is characterized by comprising a plurality of groups of pipeline corridors which are arranged at the top of a garage and communicated with each other, wherein each group of pipeline corridors comprises a first corridor (1), a second corridor (2) and a third corridor (3) which are sequentially connected from top to bottom, the first corridor (1) comprises a first cabin (11) and a second cabin which are horizontally arranged, the first cabin (11) is used for laying gas pipelines, the second cabin comprises a first sub-chamber (12) and a second sub-chamber (13) which are longitudinally arranged, the first sub-chamber (12) is used for laying heavy-current cables (14), and the second sub-chamber (13) is used for laying light-current cables (15); the second corridor (2) is used for laying a liquid pipeline, and the third corridor (3) is used for laying a fire-fighting pipeline.

2. The vestibule garage pipeline system of claim 1, wherein a first cable tray (16) is disposed within the first subchamber (12), the high power cables (14) being routed on the first cable tray (16); and a second cable bridge (17) is arranged in the second chamber (13), and the weak current cable (15) is laid on the second cable bridge (17).

3. The vestibule garage line system of claim 2, wherein said gas lines include an air duct (18) and an exhaust duct (19).

4. The vestibule garage line system of claim 1, wherein the liquid lines include a center water line (21) and a water supply line (22).

5. The vestibule garage line system of claim 4, wherein the liquid line further comprises an air conditioning drain (23), the second vestibule (2) comprises a third chamber (24) and a fourth chamber (25) arranged horizontally, the center water pipe (21) and the water supply pipe (22) are arranged in the third chamber (24), and the air conditioning drain (23) is arranged in the fourth chamber (25).

6. The vestibule garage pipeline system of claim 1, wherein said fire-fighting piping comprises hydrant water pipes (31) and shower pipes (32); a plurality of spraying openings (33) are formed in the bottom of the third corridor (3), and the spray heads of the spraying pipes (32) extend out of the spraying openings (33).

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