CN211776208U - Garage pipeline integration system and garage - Google Patents

Abstract

The utility model belongs to the technical field of the garage, a can effectively reduce garage layer height's garage pipeline integration system is specifically disclosed to and garage including above-mentioned garage pipeline integration system. The garage pipeline integration system comprises an air pipe area, wherein an air pipe positioned at the bottom of a top structural member is arranged in the air pipe area; at least one side of the air pipe is provided with an air pipe column supported at the bottom of the top structural member, and the other side of the air pipe corresponding to one side provided with the air pipe column is provided with the air pipe column or the garage outer wall supported at the bottom of the top structural member. The top structural member is supported by arranging the wind pipe column or the garage outer wall on the side part of the wind pipe, the structural span of the wind pipe region is greatly reduced, and then the thickness of the top structural member part corresponding to the wind pipe region can be reduced, so that the requirement of the wind pipe installation height can be met under the condition of realizing the overall reduction of the garage floor height, manpower, material resources and land resources can be saved, and the fund investment of garage construction is reduced.

Description

Garage pipeline integration system and garage

Technical Field

The utility model belongs to the technical field of the garage, concretely relates to garage pipeline integration system and garage.

Background

With the great improvement of the living standard of people and the violent increase of the demand on automobiles, the demand on the number of the parking spaces of the garage is increased, and the huge contradiction between the high investment and high consumption of garage construction and the high standard and high demand of city construction is caused, so that a practical and feasible solution is urgently needed.

At present, the pipeline arrangement theory of most garages falls behind, and the design is extensive, leads to satisfying under the condition of reasonable usage space, and the garage receives the influence of equipment pipeline mostly, especially receives the influence of wind pipe, needs higher floor height as the installation space of equipment pipeline, and the unnecessary space that higher floor height brought has the part can not make full use of to cause current garage construction to need to consume a large amount of manpowers, material resources and land resource, the capital investment is high at present.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a garage pipeline integration system that can effectively reduce garage floor height.

The utility model provides a technical scheme that its technical problem adopted is: the garage pipeline integration system comprises an air pipe area arranged in a garage, wherein an air pipe positioned at the bottom of a top structural member is arranged in the air pipe area; at least one side of the air pipe is provided with an air pipe column supported at the bottom of the top structural member, and the other side of the air pipe corresponding to one side provided with the air pipe column is provided with an air pipe column or a garage outer wall supported at the bottom of the top structural member.

Furthermore, each side of the air pipe provided with the air pipe columns is provided with at least two air pipe columns, and the distance between two adjacent air pipe columns along the pipe moving direction of the air pipe is equal to the distance between two adjacent garage columns; in the same wind pipe area, in the direction mutually perpendicular with the walking pipe direction of tuber pipe, the clear distance between two adjacent wind tubular columns or the clear distance between wind tubular column and the garage outer wall is 60 ~ 260 cm.

Further, the thickness of the top structural member part corresponding to the air pipe area is 8-30 cm.

Furthermore, the elevation of the top structural component part corresponding to the air pipe area is lifted or lowered by 0-80 cm.

Further, still including locating the piping lane region in the garage and locating in the garage and be responsible for with the regional communicating water and electricity of piping lane and walk the pipe region along the side in the garage, the water and electricity is responsible for and is provided with the water and electricity pipeline that is in the top structure component bottom in walking the pipe region and is responsible for, the water and electricity pipeline is responsible for and is connected with water and electricity pipeline branch pipe, be provided with the water and electricity pipeline integration pipe that is linked together with water and electricity pipeline in the piping lane region.

Further, the pipe gallery area is located between the inner side face of the garage outer wall and the side line of the traffic lane adjacent to the garage outer wall, or located between the inner side face of the garage outer wall and the side line of the parking space adjacent to the garage outer wall.

Further, the clear width of the pipe gallery area is 30-200 cm.

Further, the garage columns on two sides of the width of the water and electricity main pipe running area are perpendicular to the running direction of the water and electricity pipeline main pipe, and the net span between every two adjacent garage columns is 200-560 cm.

Further, the thickness of the top structural component part corresponding to the water and electricity main pipe running area in the first floor of the garage is 30-65 cm, and the thickness of the top structural component part corresponding to the water and electricity main pipe running area in any one floor from the second floor to the sixth floor of the garage is 10-30 cm.

The utility model also provides a garage with lower construction cost, which comprises at least one garage layer, wherein an inlet ramp and an outlet ramp are arranged in the garage layer, and a parking space and a traffic lane are arranged on the bottom plate of the garage layer; any one of the garage pipeline integration systems is arranged in at least one garage layer of the garage.

The utility model has the advantages that:

1) this garage pipeline integration system is provided with the tuber pipe post that supports in the top structure component bottom in at least one side of tuber pipe, and be provided with the tuber pipe post or the garage outer wall that supports in the top structure component bottom with the tuber pipe opposite side that is provided with tuber pipe post one side corresponding, can reduce the regional structural span of tuber pipe by a wide margin, and then reduce the thickness with the regional corresponding top structure component part of tuber pipe, thereby can be under the whole circumstances that reduces of realization garage layer height, satisfy the demand of tuber pipe mounting height, consequently, can practice thrift the manpower, material resources and land resources, reduce the fund input of garage construction.

2) At least two wind pipe columns are arranged on each side of the wind pipe provided with the wind pipe columns, and the distance between two adjacent wind pipe columns along the pipe traveling direction of the wind pipe is equal to the distance between two adjacent garage columns; and in the same wind pipe area, in the direction perpendicular to the pipe traveling direction of the wind pipes, the clear distance between two adjacent wind pipe columns or the clear distance between the wind pipe columns and the outer wall of the garage is 60-260 cm, so that the thickness of the top structural component part corresponding to the wind pipe area can be controlled to be 8-30 cm, and compared with the prior art, the thickness of the top structural component at the position is greatly reduced.

3) Set up the piping lane region through the side along the garage to set up in the garage and be responsible for the walk pipe region with the regional communicating water and electricity of piping lane, can make the water and electricity pipeline in the piping lane region the water and electricity pipeline integration intraductal space of carrying on integrate the back, reentrant water and electricity is responsible for and is laid line in order in the water and electricity pipeline main line in the walk pipe region, avoided the problem of the unordered alternately arranging extravagant garage layer height headroom of water and electricity pipeline, can make the whole further reduction in garage layer height, and present pleasing to the eye effect.

4) Be in the garage post of the regional width both sides of walking of water and electricity main pipe through control, in the walking pipe direction looks vertically direction of being responsible for with the water and electricity pipeline, the clear span between two adjacent garage posts is 200 ~ 560cm, can reduce the water and electricity main pipe and walk the regional structural span of pipe, and then reduce the thickness of walking the regional corresponding top structural component part of pipe with the water and electricity main pipe, guarantee the wiring space that the water and electricity pipeline was responsible for, further reduced the influence that water and electricity pipeline arranged to the garage headroom.

Drawings

Fig. 1 is a schematic plan view of an embodiment of a garage pipeline integration system of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

fig. 4 is a schematic plan view of a building of an embodiment of the garage of the present invention;

fig. 5 is a schematic plan view of another embodiment of the garage pipeline integration system of the present invention;

FIG. 6 is a sectional view taken along line C1-C1 of FIG. 5;

FIG. 7 is a sectional view taken along line C2-C2 of FIG. 5;

FIG. 8 is a sectional view taken along line D1-D1 in FIG. 5;

FIG. 9 is a sectional view taken along line D2-D2 in FIG. 5;

fig. 10 is a schematic plan view of a building of another embodiment of the garage of the present invention;

labeled as: the system comprises an air pipe area 1, a pipe gallery area 2, an equipment room 3, a parking space 4, a traffic lane 5, an inlet and outlet ramp 6, an air pipe column 7, an air pipe 8, a main water and electricity pipeline 9, an integrated water and electricity pipeline 9-1, branch water and electricity pipeline 10, a main water and electricity pipeline running area 11 and a top structural member 12.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1 and 2, or fig. 5, 6, 7 and 8, the garage pipeline integration system includes an air duct area 1 disposed in a garage, wherein an air duct 8 disposed at the bottom of a top structural member 12 is disposed in the air duct area 1; at least one side of the air pipe 8 is provided with an air pipe column 7 supported at the bottom of the top structural member 12, and the other side of the air pipe 8 corresponding to one side provided with the air pipe column 7 is provided with the air pipe column 7 or the garage outer wall supported at the bottom of the top structural member 12.

This garage pipeline integration system is provided with the tuber pipe post 7 of support in top structural component 12 bottom through at least one side at tuber pipe 8 to be provided with tuber pipe post 7 or the garage outer wall of support in top structural component 12 bottom with the tuber pipe 8 opposite side that is provided with tuber pipe post 7 one side corresponding, the structural span of tuber pipe region 1 has been reduced by a wide margin, and then can reduce the thickness with tuber pipe region 1 corresponding top structural component 12 part, in order to satisfy tuber pipe mounting height's demand, and realize the whole reduction in garage floor height.

The air pipe area 1 can be arranged along the length direction of the garage layer, can also be arranged along the width direction of the garage layer, and can also be arranged along the side edge of the garage layer; the air duct area 1 can be arranged at a plurality of positions in the garage layer, for example: the spatial position above the parking space 4. The air pipe column 7 is generally arranged close to or next to the air pipe 8 and is positioned in the air pipe area 1 or at the side edge position of the air pipe area 1; the wind pipe column 7 is generally a cylindrical structure made of reinforced concrete, and its cross section can be in various shapes, for example: triangular, rectangular, circular, regular polyhedral, etc., preferably a square column; the wind pipe column 7 is typically vertically disposed on the floor of the garage level on which it is located, with its upper end supported on the bottom of the roof structural member 12. The air pipe 8 is generally led out from a fan room arranged in the garage; usually, an air pipe 8 with a rectangular cross section is selected, and air pipe columns 7 are arranged on two sides of the width of the air pipe 8, or a garage outer wall and the air pipe columns 7 are respectively arranged on two sides of the width of the air pipe 8. The roof structural member 12 is a roof, a roof beam or a structural beam slab of the garage layer in which the roof structural member is located, and the structural beam slab is a member formed by combining the roof and the roof beam together.

Preferably, as shown in fig. 1 or 5, at least two air pipe columns 7 are arranged on each side of the air pipe 8 where the air pipe columns 7 are arranged, and the distance between two adjacent air pipe columns 7 along the pipe running direction of the air pipe 8 is equal to the distance between two adjacent garage columns; in the air pipe area 1, in the direction perpendicular to the pipe moving direction of the air pipe 8, the clear distance between two adjacent air pipe columns 7 or the clear distance between the air pipe columns 7 and the outer wall of the garage is 60-260 cm. Through effective control along the interval between the walking pipe direction tuber pipe post 7 of tuber pipe 8 to and the net distance between the tuber pipe post 7 in the direction mutually perpendicular with the walking pipe direction of tuber pipe 8, can be with the thickness control of the top structural component 12 part corresponding with tuber pipe region 1 at 8 ~ 30cm to further reduce the floor height of garage. The top structural members 12 on the next floor of the garage are generally thicker than the top structural members 12 on the other floors of the garage.

In actual engineering, construction is carried out according to the scheme, and the layer height at the position of the air pipe area 1 can meet the requirement under most conditions; however, some garages may require the elevation of the portion of the top structural member 12 corresponding to the ductwork area 1 to be raised or lowered by 0-80 cm at a particular location. For example: when the local floor height of the air pipe area 1 is insufficient on the negative floor of the garage, the air pipe column 7 is arranged in the air pipe area 1, so that the elevation of the top structural member 12 of the negative floor of the garage at the local floor height can be flexibly adjusted, but the height of the whole floor height cannot be influenced; typically, the elevation of the top structural member 12 at that location is adjusted by 30cm, 50cm or 80 cm.

As an optimized scheme of the utility model, combine fig. 1, fig. 2 and fig. 3, or combine fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9 to show, this garage pipeline integration system still includes and locates the pipe gallery region 2 in the garage along the side in garage and locates in the garage and be responsible for the walking on the pipe region 11 with the communicating water and electricity of pipe gallery region 2, water and electricity is responsible for being provided with the water and electricity pipeline in the walking on the pipe region 11 and is responsible for 9 that is in top structural member 12 bottom, be connected with water and electricity pipeline branch pipe 10 on being responsible for 9, be provided with the water and electricity pipeline integration pipe 9-1 that is linked together with water and electricity pipeline in the pipe region 2.

This garage pipeline integration system sets up pipe gallery region 2 through the side along the garage to set up in the garage and be responsible for the region 11 with the communicating water and electricity of pipe gallery region 2 and walk the pipe, can make the water and electricity pipeline carry out the space integration back in the water and electricity pipeline integration pipe 9-1 in pipe gallery region 2, it arranges in the water and electricity pipeline that gets into water and electricity in person in charge in pipe region 11 again in proper order is responsible for 9, the problem of the unordered cross arrangement waste garage layer height headroom of water and electricity pipeline has been avoided, can make the whole further reduction in garage layer height, and present pleasing to the eye effect.

The pipe gallery area 2 is mainly used as an integration space of water and electricity pipelines led out from the equipment room 3, can be arranged along one or more side edges of the garage, and can be arranged one or more than one; specifically, as shown in fig. 3 and 9, the pipe gallery area 2 is located between the inner side surface of the garage outer wall and the sideline of the traffic lane 5 adjacent to the garage outer wall, or is located between the inner side surface of the garage outer wall and the sideline of the parking space 4 adjacent to the garage outer wall. The specific clear width of the pipe gallery area 2 is generally determined according to the number and complexity of the hydroelectric pipelines, and the clear width of the pipe gallery area 2 is preferably controlled to be 30-200 cm.

The water and electricity main pipe running area 11 is mainly used for arranging water and electricity pipelines, and is usually arranged along the length direction of a garage layer; the main conduit 9 of the hydroelectric line is typically arranged near the bottom of the roof, or the bottom of the roof beam, or the through beam, in the main conduit routing area 11 of the hydroelectric line; typically at least two main hydroelectric pipe routing areas 11 are provided, preferably with the main hydroelectric pipe routing areas 11 parallel to each other. The hydroelectric line branch pipes 10 are typically led out at the required locations on the main hydroelectric line pipe 9 for steering wiring.

In order to further reduce the influence of the arrangement of the water and electricity pipelines on the garage clearance, the garage columns on the two sides of the width of the water and electricity main pipe running area 11 are preferably enabled to have a clear span of 200-560 cm between two adjacent garage columns in the direction perpendicular to the running direction of the water and electricity pipeline main pipe 9; on this basis, when the water and electricity main pipe walking pipe area 11 is located above the parking space 4, the net span between two adjacent garage columns is preferably controlled to be 200-450 cm, and when the water and electricity main pipe walking pipe area 11 is located above the traffic lane 5, the net span between two adjacent garage columns is preferably controlled to be 400-560 cm. By controlling the net span between the garage columns, the thickness of the portion of the top structural member 12 corresponding to the water and electricity main pipe running area 11 can be reduced, ensuring the layout space of the water and electricity pipeline main pipe 9.

On the basis, the thickness of the part of the top structural member 12 corresponding to the hydropower main pipe running area 11 in the negative one layer of the garage can be controlled to be 30-65 cm, and the thickness of the part of the top structural member 12 corresponding to the hydropower main pipe running area 11 in any one layer from the negative two layers to the negative six layers of the garage is controlled to be 10-30 cm, so that the layer height of the garage is effectively reduced.

The utility model provides a garage pipeline integration system is applicable to basement individual layer or multilayer garage parking and on the ground individual layer or multilayer garage parking, can make the floor height on every layer of garage reduce 40 ~ 100cm usually, reduces manpower, material resources and the land resource that need consume by a wide margin, reduces the fund input of garage construction. The arrangement of the garage pipeline integration system in an overground parking garage is the same as that of an underground parking garage except that no external maintenance structure is arranged.

As shown in fig. 4 or fig. 10, the garage includes at least one garage layer, an entrance ramp 6 is disposed in the garage layer, and a parking space 4 and a traffic lane 5 are disposed on a bottom plate of the garage layer; any one of the garage pipeline integration systems is arranged in at least one garage layer of the garage.

Comparative example

The traditional garage comprises two underground garage layers, wherein an inlet and outlet ramp 6 is arranged in each garage layer, and a parking space 4 and a traffic lane 5 are arranged on a bottom plate of each garage layer;

an air pipe 8 positioned at the bottom of the top structural member 12 is arranged in the garage layer, and the span between two adjacent garage columns is 780cm in the direction perpendicular to the pipe running direction of the air pipe 8; the thickness of the portion of the top structural member 12 corresponding to the duct 8 in the minus one tier is 80 cm; the thickness of the part of the top structural member 12 corresponding to the air duct 8 in the negative two-layer is 60cm

A water and electricity pipeline is arranged at the bottom of the top structural member 12 in the garage layer, and the water and electricity pipeline is arranged above the travelling lane 5 and the parking space 4 in a crossed manner; in the direction perpendicular to the wiring direction of the hydroelectric pipelines, the net span between two adjacent garage columns is 780 cm; the portion of the top structural member 12 corresponding to the hydroelectric lines in the negative layer is 80cm thick; the portion of the top structural member 12 corresponding to the hydroelectric lines in the negative layer is 60cm thick.

Example 1

Referring to fig. 1 to 4, a garage includes two underground garage layers, an entrance ramp 6 is arranged in each garage layer, and a parking space 4 and a traffic lane 5 are arranged on a bottom plate of each garage layer; a garage pipeline integration system is arranged in at least one garage layer of the garage;

the garage pipeline integration system comprises an air pipe area 1 arranged in a garage layer, a pipe gallery area 2 arranged in a garage along the side edge of the garage, and a water and electricity main pipe running area 11 arranged in the garage and communicated with the pipe gallery area 2;

an air pipe 8 positioned at the bottom of the top structural member 12 is arranged in the air pipe area 1; air pipe columns 7 positioned at the side edges of the air pipe area 1 are arranged on both sides of the width of the air pipe 8; at least two wind pipe columns 7 are arranged on each side of the wind pipe 8, which is provided with the wind pipe columns 7, and the distance between two adjacent wind pipe columns 7 is equal to the distance between two adjacent garage columns along the pipe moving direction of the wind pipe 8; in the same air pipe area 1, in the direction perpendicular to the pipe running direction of the air pipe 8, the clear distance between two adjacent air pipe columns 7 is 120 cm; the thickness of the part of the top structural member 12 corresponding to the area 1 of the ductwork that is in negative one layer is 18 cm; the thickness of the part of the top structural member 12 corresponding to the air duct region 1 in the negative two layers is 8 cm;

the pipe gallery area 2 is located between the inner side face of the garage outer wall and the side line of the parking space 4 adjacent to the garage outer wall, and the net width of the pipe gallery area 2 is 80 cm;

the garage columns on two sides of the width of the water and electricity main pipe running area 11 have a clear span of 450cm in the direction perpendicular to the running direction of the water and electricity pipeline main pipe 9; the thickness of the part of the top structural member 12 corresponding to the main conduit running area 11 of the hydropower in the negative one layer is 40cm, and the thickness of the part of the top structural member 12 corresponding to the main conduit running area 11 of the hydropower in the negative two layers is 12 cm;

a main pipeline 9 of the water and electricity pipeline at the bottom of the top structural member 12 is arranged in the water and electricity main pipeline running region 11, and a water and electricity pipeline integrated pipe 9-1 communicated with the main pipeline 9 of the water and electricity pipeline is arranged in the pipeline corridor region 2; after being led out from the equipment room 3, the hydropower pipeline firstly passes through the hydropower pipeline integration pipe 9-1 to finish integration, and then turns to enter the hydropower pipeline main pipe 9, and the hydropower pipeline main pipe 9 is orderly arranged in the hydropower main pipe walking pipe area 11.

Compared with a comparative example, in the air pipe area 1 with the largest influence layer height, the thickness of the top structural member 12 of the garage layer of the garage provided with the garage pipeline integration system is 18cm when the garage layer is covered by one layer, and is 8cm when the garage layer is covered by two layers, and the thicknesses are respectively reduced by 62cm and 52cm compared with 80cm of the first layer and 60cm of the second layer of the traditional garage, so that the garage layer height can be effectively reduced, and the engineering cost is saved; simultaneously, arrange the water and electricity pipeline in order through water and electricity pipeline person in charge 9 to effectively control the net span between the garage post, make the thickness that is responsible for the 12 parts of the corresponding top structure component of walking pipe region 11 with the water and electricity reduce to 40cm of burden one deck, 12cm of burden two floors, effectively reduced the influence that water and electricity pipeline arranged the garage headroom, can make the whole further reduction in garage floor height, and present pleasing to the eye effect.

Example 2

As shown in fig. 5 to 10, a garage includes two underground garage layers, an entrance ramp 6 is provided in the garage layers, and a parking space 4 and a traffic lane 5 are provided on a bottom plate of the garage layer; a garage pipeline integration system is arranged in at least one garage layer of the garage;

the garage pipeline integration system comprises an air pipe area 1 arranged in a garage layer, a pipe gallery area 2 arranged in a garage along the side edge of the garage, and a water and electricity main pipe running area 11 arranged in the garage and communicated with the pipe gallery area 2;

at least two air pipe areas 1 are arranged, and air pipes 8 at the bottoms of the top structural members 12 are arranged in the air pipe areas 1; air pipe columns 7 positioned at the side edges of the air pipe regions 1 are arranged on both sides of the width of the air pipes 8 in at least one air pipe region 1, and garage outer walls and air pipe columns 7 positioned at the side edges of the air pipe regions 1 are arranged on both sides of the width of the air pipes 8 in at least one air pipe region 1 respectively; at least two wind pipe columns 7 are arranged on each side of the wind pipe 8, which is provided with the wind pipe columns 7, and the distance between two adjacent wind pipe columns 7 along the pipe running direction of the wind pipe 8 is equal to the distance between two adjacent garage columns; in the same air pipe area 1, in the direction perpendicular to the pipe running direction of the air pipe 8, the clear distance between two adjacent air pipe columns 7 is 150cm, and the clear distance between the air pipe columns 7 and the outer wall of the garage is 150 cm; the thickness of the part of the top structural member 12 corresponding to the plenum area 1 in minus one floor is 22 cm; the thickness of the part of the top structural member 12 corresponding to the air duct region 1 in the negative two layers is 10 cm;

the pipe gallery area 2 is located between the inner side face of the garage outer wall and the side line of the parking space 4 adjacent to the garage outer wall, and the net width of the pipe gallery area 2 is 120 cm;

the garage columns on two sides of the width of the water and electricity main pipe running area 11 have a clear span of 500cm in the direction perpendicular to the running direction of the water and electricity pipeline main pipe 9; the thickness of the part of the top structural member 12 corresponding to the main conduit running area 11 of the hydropower in the negative one layer is 45cm, and the thickness of the part of the top structural member 12 corresponding to the main conduit running area 11 of the hydropower in the negative two layers is 14 cm;

a main pipeline 9 of the water and electricity pipeline at the bottom of the top structural member 12 is arranged in the water and electricity main pipeline running region 11, and a water and electricity pipeline integrated pipe 9-1 communicated with the main pipeline 9 of the water and electricity pipeline is arranged in the pipeline corridor region 2; after being led out from the equipment room 3, the hydropower pipeline firstly passes through the hydropower pipeline integration pipe 9-1 to finish integration, and then turns to enter the hydropower pipeline main pipe 9, and the hydropower pipeline main pipe 9 is orderly arranged in the hydropower main pipe walking pipe area 11.

Compared with a comparative example, in the air pipe area 1 with the largest influence layer height, the thickness of the top structural member 12 of the garage layer of the garage provided with the garage pipeline integration system is 22cm when the first layer is supported, and is 10cm when the second layer is supported, and the thicknesses are respectively reduced by 58cm and 50cm compared with the thicknesses of 80cm of the first layer and 60cm of the second layer of the traditional garage, so that the garage layer height can be effectively reduced, and the engineering cost is saved; simultaneously, arrange the water and electricity pipeline in order through water and electricity pipeline person in charge 9 to effectively control the net span between the garage post, make the thickness that is responsible for the 12 parts of the top structure component that corresponds with water and electricity and walk the pipe region 11 reduce to 45cm of burden one deck, 14cm of burden two layers, effectively reduced the influence that water and electricity pipeline arranged the garage headroom, can make the whole further reduction in garage floor height, and present pleasing to the eye effect.

Example 3

The garage comprises six underground garage layers, wherein an inlet ramp and an outlet ramp 6 are arranged in each garage layer, and a parking space 4 and a traffic lane 5 are arranged on a bottom plate of each garage layer; a garage pipeline integration system is arranged in at least one garage layer of the garage;

the garage pipeline integration system comprises an air pipe area 1 arranged in a garage layer, a pipe gallery area 2 arranged in a garage along the side edge of the garage, and a water and electricity main pipe running area 11 arranged in the garage and communicated with the pipe gallery area 2;

at least two air pipe areas 1 are arranged, and air pipes 8 at the bottoms of the top structural members 12 are arranged in the air pipe areas 1; air pipe columns 7 positioned at the side edges of the air pipe regions 1 are arranged on two sides of the air pipes 8 in at least one air pipe region 1, and garage outer walls and air pipe columns 7 positioned at the side edges of the air pipe regions 1 are arranged on two sides of the air pipes 8 in at least one air pipe region 1 respectively; at least two wind pipe columns 7 are arranged on each side of the wind pipe 8, which is provided with the wind pipe columns 7, and the distance between two adjacent wind pipe columns 7 along the pipe running direction of the wind pipe 8 is equal to the distance between two adjacent garage columns; in the same air pipe area 1, in the direction perpendicular to the pipe running direction of the air pipe 8, the clear distance between two adjacent air pipe columns 7 is 240cm, and the clear distance between the air pipe columns 7 and the outer wall of the garage is 240 cm; the thickness of the part of the top structural member 12 corresponding to the area 1 of the ductwork that is in negative one layer is 25 cm; the thickness of the part of the top structural member 12 corresponding to the air pipe region 1 in any one of the negative two-layer to the negative six-layer is 12 cm;

the pipe gallery area 2 is located between the inner side face of the garage outer wall and the side line of the traffic lane 5 adjacent to the garage outer wall, and the clear width of the pipe gallery area 2 is 150 cm;

the garage columns on two sides of the width of the water and electricity main pipe running area 11 have a clear span of 550cm between two adjacent garage columns in the direction perpendicular to the running direction of the water and electricity pipeline main pipe 9; the thickness of the part of the top structural member 12 corresponding to the main water and electricity pipe running region 11 in the negative one layer is 50cm, and the thickness of the part of the top structural member 12 corresponding to the main water and electricity pipe running region 11 in any one layer from the negative two layers to the negative six layers is 16 cm;

a main water and electricity pipeline pipe 9 at the bottom of a top structural member 12 is arranged in the main water and electricity pipeline running area 11, a branch water and electricity pipeline pipe 10 is connected to the main water and electricity pipeline pipe 9, and a water and electricity pipeline integrated pipe 9-1 communicated with the main water and electricity pipeline pipe 9 is arranged in the pipe gallery area 2; after being led out from the equipment room 3, the hydropower pipeline firstly passes through the hydropower pipeline integration pipe 9-1 to finish integration, and then turns to enter the hydropower pipeline main pipe 9, and the hydropower pipeline main pipe 9 is orderly arranged in the hydropower main pipe walking pipe area 11.

Compared with a comparative example, in the air pipe area 1 with the largest influence layer height, the thickness of the top structural member 12 of the garage layer of the garage provided with the garage pipeline integration system is 25cm when the garage layer is covered with one layer, and is 12cm when the garage layer is covered with two layers to six layers, and the thicknesses are respectively reduced by 55cm and 48cm compared with the thicknesses of 80cm of the first layer and 60cm of the second layer of the traditional garage, so that the garage layer height can be effectively reduced, and the engineering cost is saved; simultaneously, arrange the water and electricity pipeline in order through water and electricity pipeline person in charge 9 to effectively control the net span between the garage post, make the thickness that is responsible for the corresponding top structural component 12 part of management area 11 with the water and electricity and reduce to 50cm of burden one deck, 16cm of burden two floors to burden six layers, effectively reduced the influence of water and electricity pipeline arrangement to the garage headroom, can make the whole further reduction in garage floor height, and present pleasing to the eye effect.

Claims (10)

1. The garage pipeline integration system comprises an air pipe area (1) arranged in a garage, wherein an air pipe (8) positioned at the bottom of a top structural member (12) is arranged in the air pipe area (1); the method is characterized in that: at least one side of the air pipe (8) is provided with an air pipe column (7) supported at the bottom of the top structural component (12), and the other side of the air pipe (8) corresponding to one side provided with the air pipe column (7) is provided with the air pipe column (7) or the garage outer wall supported at the bottom of the top structural component (12).

2. The garage pipeline integration system of claim 1, wherein: at least two air pipe columns (7) are arranged on each side of the air pipe (8) provided with the air pipe columns (7), and the distance between two adjacent air pipe columns (7) along the pipe moving direction of the air pipe (8) is equal to the distance between two adjacent garage columns; in the same air pipe area (1), in the direction perpendicular to the pipe moving direction of the air pipes (8), the clear distance between two adjacent air pipe columns (7) or the clear distance between the air pipe columns (7) and the outer wall of the garage is 60-260 cm.

3. The garage pipeline integration system of claim 2, wherein: the thickness of the top structural member (12) part corresponding to the air pipe area (1) is 8-30 cm.

4. The garage pipeline integration system of claim 2, wherein: the elevation of the part of the top structural component (12) corresponding to the air pipe area (1) is raised or lowered by 0-80 cm.

5. The garage pipeline integration system of any one of claims 1 to 4, wherein: still include locate pipe gallery region (2) in the garage and locate in the garage and be responsible for away pipe region (11) with the communicating water and electricity of pipe gallery region (2) including locating along the side in garage, the water and electricity is responsible for away and is provided with the water and electricity pipeline that is in top structural component (12) bottom in pipe region (11) and is responsible for (9), be connected with water and electricity pipeline branch pipe (10) on the water and electricity pipeline is responsible for (9), be provided with the water and electricity pipeline that is linked together with water and electricity pipeline and integrate pipe (9-1) in pipe gallery region (2).

6. The garage pipeline integration system of claim 5, wherein: the pipe gallery area (2) is located between the inner side face of the garage outer wall and the side line of the traffic lane (5) adjacent to the garage outer wall, or is located between the inner side face of the garage outer wall and the side line of the parking space (4) adjacent to the garage outer wall.

7. The garage pipeline integration system of claim 5, wherein: the net width of the pipe gallery area (2) is 30-200 cm.

8. The garage pipeline integration system of claim 5, wherein: the garage columns on two sides of the width of the water and electricity main pipe running area (11) are perpendicular to the running pipe direction of the water and electricity pipeline main pipe (9), and the net span between every two adjacent garage columns is 200-560 cm.

9. The garage pipeline integration system of claim 8, wherein: the thickness of the part of the top structural member (12) corresponding to the hydropower main pipe running area (11) in the first layer of the negative garage is 30-65 cm, and the thickness of the part of the top structural member (12) corresponding to the hydropower main pipe running area (11) in any one layer from the second layer to the sixth layer of the negative garage is 10-30 cm.

10. The garage comprises at least one garage layer, wherein an entrance ramp and an exit ramp (6) are arranged in the garage layer, and a parking space (4) and a traffic lane (5) are arranged on a bottom plate of the garage layer; the method is characterized in that: the garage pipeline integration system of any one of claims 1 to 9 is provided in at least one garage level of the garage.

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