CN213836741U - Ground storehouse based on set up board bottom tube corridor district - Google Patents

Abstract

The utility model provides a ground garage based on a gallery area of a bottom pipe of a setting plate, which comprises a plurality of layers of garage single-layer bodies; the top of each layer of the garage single-layer body is provided with a plurality of plate bottom pipe gallery channels, large-size pipelines are arranged in the plate bottom pipe gallery channels, and the large-size pipelines comprise exhaust pipelines; the large-size pipeline is arranged between the two spaced frame main beams, and the top of the large-size pipeline is attached to the plate bottom of the garage top plate; the top of the plate bottom pipe gallery channel is continuously or alternately provided with a plurality of short span beams along the extension direction of the large-size pipeline, and both ends of each short span beam are fixedly connected with the upright post; the beam bottom of the short span beam is flush with the plate bottom of the garage top plate; the connecting channel is arranged, and the ventilation pipe is introduced into the tower, so that the wind inlet and outlet facilities in the landscape atrium can be avoided. The utility model discloses a ground storehouse is guaranteeing under the structural stability prerequisite, can effectively reduce the layer height of garage monosomic body, ensure clean height, can compress ground storehouse volume, reduce the long-pending index of bicycle body, save ground storehouse cost, promote its quality.

Description

Ground storehouse based on set up board bottom tube corridor district

Technical Field

The utility model belongs to the technical field of the underground garage, concretely relates to ground storehouse based on set up board bottom tube corridor district.

Background

In the traditional underground garage, various large-size pipelines (such as exhaust pipelines) and small-size pipelines (such as water pipes and cable bridges) are arranged below the most unfavorable beam of the top structure of the garage, and the various large-size pipelines and the small-size pipelines are randomly arranged above a parking space or in a vehicle passing area, so that the situation of crossing of multiple pipelines occurs, and the occupied height space of the equipment pipelines is larger; in order to accommodate necessary large-size pipelines, small-size pipelines and the like and meet the net height of a single-layer garage, the calculation formula of the layer height of the traditional garage is as follows: the structure height + equipment pipeline + garage net height, the layer height is generally higher.

The layer height of the underground garage is a core factor influencing the construction cost of the underground garage, the higher the layer height is, the larger the garage volume is, the larger the excavated earth volume is, the larger the influence of underground water is, and the higher the construction cost of the underground garage is. Therefore, it is a common knowledge in the industry to control the floor height of the underground garage, namely the cost of controlling the underground garage. A traditional underground garage usually has a first layer of 3.7-3.8 m and a second layer of 7.3-7.5 m, and is even higher and not uncommon. A large amount of funds are buried underground, so that great waste is caused, and the economical and energy-saving development of the industry is restricted.

SUMMERY OF THE UTILITY MODEL

To traditional ground storehouse layer height higher, the ground storehouse is bulky, leads to the problem that ground storehouse cost is high, based on reducing the consideration of single parking stall volume index, the utility model provides a ground storehouse based on setting up board bottom tube corridor district, rational planning arranges jumbo size pipeline in the ground storehouse, is guaranteeing ground storehouse structural strength, is satisfying under the clean high condition in ground storehouse, effectively reduces the layer height of the single layer body in garage, compresses the ground storehouse volume, saves ground storehouse cost.

The utility model discloses a following technical scheme realizes:

a ground garage based on a bottom pipe gallery area of a setting plate comprises a plurality of layers of garage single-layer bodies, wherein each layer of garage single-layer body comprises a plurality of criss-cross frame main beams, garage top plates laid among the frame main beams and a plurality of stand columns used for supporting the frame main beams;

the top of each layer of the garage single-layer body is provided with a plurality of plate bottom pipe gallery channels, large-size pipelines are arranged in the plate bottom pipe gallery channels, and the large-size pipelines include but are not limited to exhaust pipelines;

the large-size pipeline is arranged between the two spaced frame main beams, and the top of the large-size pipeline is attached to the plate bottom of the garage top plate;

the top of the plate-bottom pipe gallery channel is continuously or alternately provided with a plurality of short span beams along the extension direction of a large-size pipeline, two ends of each short span beam are fixedly connected with the upright post, and particularly, the fixed connection mode between the short span beams and the frame main beam is a common technical means in the field;

the beam bottom of the short span beam is flush with the plate bottom of the garage top plate, the top of a large-size pipeline can be attached to the bottom of the short span beam, the layer height of a single-layer body of the garage is effectively reduced, and the strength and the stability of the structure can be enhanced.

According to the above technical scheme, the utility model provides a pair of ground storehouse based on set up bottom tube corridor district, beneficial effect lies in: this kind of ground storehouse sets up board bottom pipe gallery passageway at the board bottom of garage roof, installs the jumbo size pipeline top laminating garage roof in board bottom pipe gallery passageway, flushes at the bottom of the board of the crossing short span beam of jumbo size pipeline and garage roof, and the layer height of the single layer body in garage can effectively be reduced to this kind of structure, compresses the ground storehouse volume, saves the ground storehouse cost.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further limiting, the bottom of each layer of the garage single-layer body is provided with a plurality of lanes; the lane is arranged between the two spaced main beams of the frame, the top of the lane is continuously or alternately provided with a plurality of short span beams along the extending direction of the lane, and two ends of each short span beam are fixedly connected with the upright post; the beam bottom of the short span beam is flush with the plate bottom of the garage top plate.

The beneficial effect of adopting the further scheme is that: the garage top plate, the frame main beam and the short span beam at the top of the lane are the same or similar to the plate bottom pipe gallery channel, so that the structural strength of the garage can be ensured, the clear height of the lane is increased, and the quality of the garage is improved.

Further defined, a plurality of the short span beams are one or a combination of more of upturned beams, haunched upturned beams or haunched beams; it should be noted that, when the short span beam is an haunched upturned beam and an haunched beam, the bottom of the beam refers to the bottom of the non-haunched part.

The beneficial effect of adopting the further scheme is that: when the beam is turned upwards or the haunched upturning beam is turned upwards, the beam bottom is flush with the plate bottom, so that the top of the large-size pipeline can be attached to the beam bottom and the plate bottom, and the floor height is reduced; when the armpit beam is added, the beam bottom of the non-armpit part on the beam is flush with the plate bottom, the top of the large-size pipeline is attached to the beam bottom and the plate bottom, the floor height is reduced, and the beam armpit can ensure the structural strength of the garage.

Further inject, a plurality of at board bottom pipe gallery passageway top and lane top the garage roof is equallyd divide and is one kind or the combination of multiple in one-way board, one-way haunched board or two-way board respectively.

The beneficial effect of adopting the further scheme is that: the garage top plate at the top of the plate-bottom pipe gallery channel and the top of the lane adopts a one-way plate and/or a one-way haunch plate and/or a two-way plate, so that the structural strength of the garage top plate is ensured, and meanwhile, the arrangement of large-size pipeline veneers is facilitated.

Further defined, the haunched varus beam, haunched beam, unidirectional haunched plate and other beam or plate haunched forms are not particularly limited, including but not limited to rectangular haunched or triangular haunched or special haunched; the rectangular haunches or the triangular haunches are convenient to construct.

Further limiting, at least one hidden beam is arranged on a plurality of garage top plates on the top of the plate-bottom pipe gallery channel and the top of the lane, the hidden beam extends along the short span direction, two ends of the hidden beam are fixedly connected with the upright posts, and the hidden beam and the garage top plates are integrally cast and molded; the top and bottom surfaces of the hidden beam are flush with the top and bottom surfaces of the garage top plate.

The beneficial effect of adopting the further scheme is that: the garage top plate is provided with at least one hidden beam, so that the strength and stability of the garage top plate can be enhanced, and the effectiveness of horizontal force transfer of the embedded layer is ensured.

Further inject, be equipped with interface channel between board bottom pipe gallery passageway and the tower, interface channel's both ends are connected board bottom pipe gallery passageway and tower respectively, are equipped with jumbo size pipeline in the interface channel, jumbo size pipeline in the interface channel and the jumbo size pipeline intercommunication in the board bottom pipe gallery passageway, when jumbo size pipeline is exhaust duct, can lead wind to the tower. Specifically, the way of connecting the passageway at the bottom of the board of garage roof is unanimous with the way of board bottom pipe gallery passageway, and the jumbo size pipeline in the connecting the passageway and the board bottom pipe gallery passageway is steady transition, can promote the net height of garage monosomic body under the floor height certain condition.

The beneficial effect of adopting the further scheme is that: the connecting channel is used for leading a large-size pipeline or an exhaust pipeline to the tower, so that air inlet and outlet facilities in a landscape atrium can be avoided, and the quality of the garage can be improved.

Further inject, the frame girder of the intersection of connecting channel and board bottom pipe gallery channel is the upturning roof beam or haunched upturning roof beam, ensures the steady transition of the jumbo size pipeline between connecting channel and the board bottom pipe gallery channel, effectively controls the layer height of the garage single-layer body.

The beneficial effect of adopting the further scheme is that: the structure can ensure the stable transition of large-size pipelines between the connecting channel and the plate bottom pipe gallery channel, and effectively control the layer height of the single-layer body of the garage.

Further limiting, a plurality of small-size pipelines are arranged at the top of each layer of the garage single-layer body, and each small-size pipeline comprises a water pipe and a cable bridge. Specifically, the small-size pipeline can be arranged along a plate bottom pipe gallery channel, can also be arranged along the plate bottom of a garage top plate at the top of a lane, can also be arranged along the plate bottoms of other garage top plates, and can also be arranged along the bottom of a short span beam of a frame main beam; the small-size pipeline mainly passes through the height difference of long and short span beams or a plate bottom pipeline. It should be noted here that the plate bottom pipe gallery channel running large-size pipelines may also run small-size pipelines, but the top of the lane running small-size pipelines does not run large-size pipelines.

The beneficial effect of adopting the further scheme is that: compared with large-size pipelines such as exhaust pipelines laid in the channels of the plate-bottom pipe gallery, small-size pipelines such as water pipes and cable bridges are small in size, and the influence of the arrangement of the water pipes and/or the cable bridges along the plate bottom of the garage top plate or the short span beam bottom of the frame main beam on the net height of the garage single-layer body is small.

Further limit, the connecting channel is intersected with the plate bottom pipe gallery channel, the small-size pipeline is intersected with the large-size pipeline in the connecting channel, and the small-size pipeline is positioned below the large-size pipeline in the connecting channel.

The beneficial effect of adopting the further scheme is that: compared with the large-size pipeline such as an exhaust pipeline laid in the connecting channel, the small-size pipeline such as a water pipe and a cable bridge is small in size, and the water pipe, the cable bridge and the large-size pipeline in the connecting channel are intersected, so that the pipeline laying can be facilitated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is the schematic plan structure of the single-layer body of the garage of the present invention.

Fig. 2 is a partial sectional view taken in the direction of a-a in fig. 1.

Fig. 3 is a partial sectional view taken in the direction B-B in fig. 1.

Fig. 4 is a partial structural diagram of fig. 2 at C.

Fig. 5 is a partial structural diagram of fig. 3 at D.

Fig. 6 is a schematic view of a partial structure at E in fig. 2.

Fig. 7 is a schematic view of various structural combinations of the short span beam of the present invention.

Fig. 8 is the combined schematic view of multiple structures of the garage roof of the present invention.

Fig. 9 is a partial sectional view in the direction F-F in fig. 1.

Fig. 10 is a schematic view of a partial structure at H in fig. 2.

In the drawings: 1-frame girder, 2-garage top plate, 21-one-way plate, 22-one-way haunched plate, 23-two-way plate, 24-hidden beam, 3-column, 41-plate bottom pipe gallery channel, 42-lane, 5-large-size pipeline, 51-exhaust pipe, 6-short span beam, 61-upturning beam, 62-haunched upturning beam, 63-haunched beam, 7-tower, 8-connecting channel, 9-small-size pipeline, 91-water pipe and 92-cable bridge.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Embodiment 1, as shown in fig. 1 to 5, a ground garage based on a floor pipe gallery area includes a plurality of layers of garage single-layer bodies, each layer of garage single-layer body includes a plurality of criss-cross frame girders 1, a garage top plate 2 laid between the frame girders 1, and a plurality of columns 3 for supporting the frame girders 1; the top of each layer of the garage single-layer body is provided with a plurality of plate bottom pipe gallery channels 41, large-size pipelines 5 are arranged in the plate bottom pipe gallery channels 41, and the large-size pipelines 5 include but are not limited to exhaust pipelines 51; the large-size pipeline 5 is arranged between the two spaced frame main beams 1, and the top of the large-size pipeline 5 is attached to the plate bottom of the garage top plate 2; the top of the plate-bottom pipe gallery channel 41 is continuously or alternately provided with a plurality of short span beams 6 along the extension direction of the large-size pipeline 5, two ends of each short span beam 6 are fixedly connected with the upright post 3, and specifically, the fixed connection mode between the short span beams 6 and the frame main beam 1 is a common technical means in the field; the beam bottom of the short span beam 6 is flush with the plate bottom of the garage top plate 2, the top of the large-size pipeline 5 can be attached to the bottom of the short span beam 6, the layer height of a single layer body of the garage is effectively reduced, and the strength and the stability of the structure can be enhanced. It should be noted that, at the top of each layer of garage single-layer body, regardless of how the plate-floor pipe gallery channel 41 is arranged and regardless of the direction of the large-size pipeline 5, the top of the large-size pipeline 5 is always ensured to be attached to the plate bottom of the garage top plate 2 and the beam bottom of the short span beam 6, so that the layer height is reduced; the short span 6 also belongs to a kind of frame girder 1, which is a kind of frame girder 1 perpendicular or intersecting with the extending direction of the large-sized pipeline 5. This kind of ground storehouse sets up board bottom pipe gallery passageway 41 at the board bottom of garage roof 2, installs 5 top laminating garage roofs 2 of jumbo size pipeline in board bottom pipe gallery passageway 41, flushes at the bottom of the board of garage roof 2 with the crossing short span beam 6 of jumbo size pipeline 5, and the layer height of the single layer body in garage can effectively be reduced to this kind of structure, compresses the ground storehouse volume, reduces the unit volume index, saves the ground storehouse cost.

Embodiment 2, as shown in fig. 1 to 6, a ground garage based on a gallery area for setting a bottom plate pipe is different from embodiment 1 in that:

as shown in fig. 6, as a further preferred embodiment, the bottom of each layer of the garage single-layer body is provided with a plurality of lanes 42; the lane 42 is arranged between two spaced main beams 1 of the frame, the top of the lane 42 is continuously or alternately provided with a plurality of short span beams 6 along the extending direction of the lane 42, and two ends of each short span beam 6 are fixedly connected with the upright post 3; the beam bottom of the short span beam 6 is flush with the plate bottom of the garage top plate 2; the structure can ensure the structural strength of the garage, increase the clear height of the lane 42 and improve the quality of the garage. It should be noted here that, in essence, in each layer of the garage single-layer body, the structures of the garage top plate 2, the frame main beam 1 and the short span beam 6 at the top of the lane 42 are the same as or similar to the structures of the plate-bottom pipe gallery channel 41, that is, the plate bottom of the garage top plate 2 at the top of the lane 42 is flush with the beam bottom of the short span beam 6, so that the structural strength of the garage can be ensured, the clear height of the lane 42 can be increased, and the quality of the garage can be improved.

Embodiment 3, as shown in fig. 1 to 9, a ground garage based on a gallery area for setting a bottom plate pipe is different from embodiment 2 in that:

as a further preferred embodiment, as shown in fig. 7, the short span beams 6 at the top of the plate-floor pipe gallery channel 41 and the top of the driveway 42 may each be provided as a combination of one or more of an upturned beam 61, a haunched upturned beam 62 or a haunched beam 63, respectively. It should be noted here that when the short span beam 6 is set as the upturned beam 61 and/or the haunched upturned beam 62, the bottom of the beam is flush with the bottom of the plate, so that the top of the large-size pipeline 5 can be attached to the bottom of the beam and the bottom of the plate, and the floor height is reduced; the upturned beam 61 refers to a common frame main beam 1 without armpit; when the short span beam 6 is arranged as the haunched beam 63, the non-haunched part on the haunched beam 63 can be used for the large-size pipeline 5 to pass through, the beam bottom of the non-haunched part on the haunched beam 63 is flush with the plate bottom, the top of the large-size pipeline 5 can be ensured to be attached to the beam bottom and the plate bottom, the layer height can be reduced, the clear height of the lane 42 can be ensured, and the beam haunched part can ensure the structural strength of the garage; it should be noted here that when the short span beam 6 is the haunched upturned beam 62 and the haunched beam 63, the beam bottom refers to the bottom of the non-haunched part.

As a further preferred embodiment, as shown in fig. 8, the garage roof 2 at the top of the slab floor tunnel 41 and at the top of the driveway 42 may each be provided with one or a combination of one or more of unidirectional panels 21, unidirectional haunched panels 22 or bidirectional panels 23, respectively. It should be noted here that the garage roof 2 at the top of the slab floor pipe gallery channel 41 and the top of the lane 42 adopts the one-way slab 21 and/or the one-way haunched slab 22 and/or the two-way slab 23, so that the structural strength of the garage roof 2 can be ensured, the large-size pipeline 5 can be conveniently laid at the slab bottom, the slab bottom of the garage roof 2 can be ensured to be flush with the beam bottom of the short span beam 6, the floor height can be reduced, and the clear height of the lane 42 can be ensured. In addition, a plurality of garage roofs 2 except the top of the plate-floor pipe gallery channel 41 and the top of the lane 42 are respectively one or more combinations of one-way plates 21, one-way haunched plates 22, two-way plates 23 or two-way haunched plates.

It should be noted that the forms of the haunched upturned beam 62, haunched beam 63, unidirectional haunched plate 22 and other beams or plates are not particularly limited, and include, but are not limited to, rectangular haunches or triangular haunches or special haunches; the rectangular haunches or the triangular haunches are convenient to construct.

As shown in fig. 9, as a further preferred embodiment, at least one hidden beam 24 is arranged on a plurality of garage roofs 2 on the top of the slab-based pipe gallery channel 41 and the top of the driveway 42, the hidden beam 24 extends along the short span direction, or the hidden beam 24 is parallel to the short span beam 6, both ends of the hidden beam 24 are fixedly connected with the upright posts 3, and the hidden beam 24 and the garage roof 2 are integrally cast; the top and bottom surfaces of the hidden beam 24 are flush with the top and bottom surfaces of the garage roof 2. It should be noted here that, the hidden beam 24 is arranged on the garage roof 2, and actually, when the garage roof 2 and the frame girder 1 are manufactured, the reinforcing steel bars are arranged in the garage roof 2 at intervals, two ends of the reinforcing steel bars are connected with the frame girder 1 or the upright post 3, the hidden beam 24 and the garage roof 2 are integrally cast, and the structure of the hidden beam 24 and the garage roof 2 can enhance the structural strength and stability of the garage roof 2, and ensure the effectiveness of horizontal force transfer of the embedded layer.

Embodiment 4, as shown in fig. 1 to 10, a ground garage based on a gallery area for setting a bottom plate pipe is different from embodiment 3 in that:

as shown in fig. 1 and 10, as a further preferred embodiment, a connecting channel 8 is provided between the plate bottom pipe gallery channel 41 and the tower 7, two ends of the connecting channel 8 are respectively connected with the plate bottom pipe gallery channel 41 and the tower 7, a large-size pipeline 5 is provided in the connecting channel 8, the large-size pipeline 5 in the connecting channel 8 is communicated with the large-size pipeline 5 in the plate bottom pipe gallery channel 41, and when the large-size pipeline 5 is an exhaust pipeline 51, a fan exhaust channel can be led to the tower 7. Specifically, the way of the connecting channel 8 at the bottom of the garage top plate 2 is the same as the way of the plate bottom pipe gallery channel 41, that is, the bottom of the garage top plate 2 at the top of the connecting channel 8 is flush with the bottom of the frame main beam 1 (which can be made into a short span beam 6) in the extending direction of the connecting channel 8, the large-size pipelines 5 in the connecting channel 8 and the large-size pipelines 5 in the plate bottom pipe gallery channel 41 are in stable transition, and the large-size pipelines 5 are all arranged at the bottom of the plate, so that the net height of the garage single-layer body can be improved under certain layer height conditions. It should be noted here that the connecting duct 8 is used to lead the large-sized pipeline 5 such as the exhaust duct 51 to the tower 7, so as to avoid the wind inlet and outlet facilities in the middle court landscape area and improve the garage quality.

As shown in fig. 10, as a further preferred embodiment, the main frame beam 1 at the intersection of the connecting channel 8 and the plate bottom pipe gallery channel 41 is an upturned beam 61 or an axillary upturned beam 62. The structure can ensure the stable transition of the large-size pipeline 5 between the connecting channel 8 and the plate bottom pipe gallery channel 41, and the large-size pipeline 5 can pass through the bottom of the upturning beam 61 or the non-haunched part of the haunched upturning beam 62, thereby effectively controlling the layer height of the garage single-layer body.

Embodiment 5, as shown in fig. 1 to 10, a ground library based on a floor bottom pipe gallery area is different from embodiment 4 in that:

as shown in fig. 1 to 3, as a further preferred embodiment, a plurality of small-sized pipelines 9 are arranged on the top of each layer of the garage single-layer body, and the small-sized pipelines 9 include water pipes 91 and cable bridges 92. Specifically, the small-size pipeline 9 may be laid along the slab floor pipe gallery channel 41, or along the slab floor of the garage roof 2 at the top of the driveway 42, or along the slab floors of other garage roofs 2, or along the short span beam floor of the frame main beam 1. It should be noted that compared to the large-sized pipeline 5 such as the exhaust duct 51 laid in the slab floor duct lane 41, the small-sized pipeline 9 such as the water pipe 91 and the cable bridge 92 has smaller size, and the water pipe 91 and/or the cable bridge 92 laid along the slab bottom of the garage roof 2 or the short span beam bottom of the frame main beam 1 has smaller influence on the net height of the garage single layer body. It should be noted here that the plate floor tunnel 41 that runs the large-sized pipeline 5 may also run the small-sized pipeline 9, but the top of the lane 42 that runs the small-sized pipeline 9 does not run the large-sized pipeline 5.

As a further preferred embodiment, said connecting channel 8 intersects the plate floor gallery channel 41, as shown in fig. 1 and 10; the small-size pipeline 9 is intersected with the large-size pipeline 5 in the connecting channel 8, and the small-size pipeline 9 is positioned below the large-size pipeline 5 in the connecting channel 8; it should be noted that only small-sized pipelines can be laid below the connecting channel, and if a layer of large-sized pipeline is laid, the layer height is affected.

Embodiment 6, as shown in fig. 1 to 10, a ground library based on a floor bottom pipe gallery area is different from embodiment 5 in that:

as a further preferred embodiment, when the upper portion of the uppermost garage single layer of the garage is covered with soil, and the frame main beam 1 and/or the short span beam 6 of the uppermost garage single layer is the upturned beam 61 and/or the upturned haunched beam 63, the upturned portion of the beam can be covered with soil, so that the structural appearance is not affected, and the structure can ensure the structural strength of the garage single layer and the garage quality.

As a further preferred embodiment, when the frame main beam 1 and/or the short span beam 6 of the garage single-layer body other than the garage single-layer body on the uppermost layer in the garage is the upturned beam 61 and/or the upturned haunched beam 63, and the frame main beam 1 is positioned at a non-partition wall, the upturned part of the beam can be smoothed through the building surface layer of the garage single-layer body, and the structure can ensure the structural strength of the garage single-layer body and the garage quality at the same time; when this frame roof beam was in partition wall department or did not influence the parking and experience, the upturning part of roof beam extends to in the partition wall or does not influence the parking position, and the structural strength of garage monosomic body can be strengthened to this kind of structure, does not have the influence to people or car current.

Claims (10)

1. The utility model provides a ground storehouse based on set up board bottom tube corridor district, includes a plurality of layers of garage monosomic body, every layer of garage monosomic body all includes garage roof (2) of laying between a plurality of frame girder (1) of vertically and horizontally staggered and a plurality of frame girder (1) and a plurality of stand (3) that are used for braced frame girder (1), its characterized in that:

the top of each layer of the garage single-layer body is provided with a plurality of plate bottom pipe gallery channels (41), large-size pipelines (5) are arranged in the plate bottom pipe gallery channels (41), and the large-size pipelines (5) comprise exhaust pipelines (51);

the large-size pipeline (5) is arranged between the two spaced frame main beams (1), and the top of the large-size pipeline (5) is attached to the bottom of the garage top plate (2);

the top of the plate bottom pipe gallery channel (41) is continuously or alternately provided with a plurality of short span beams (6) along the extension direction of the large-size pipeline (5), and two ends of each short span beam (6) are fixedly connected with the upright column (3); the beam bottom of the short span beam (6) is flush with the plate bottom of the garage top plate (2).

2. The ground reservoir based on setting the plate bottom pipe gallery area of claim 1, characterized in that: the bottom of each layer of the garage single-layer body is provided with a plurality of lanes (42); the lane (42) is arranged between two spaced frame main beams (1), the top of the lane (42) is continuously or alternately provided with a plurality of short span beams (6) along the extending direction of the lane, and two ends of each short span beam (6) are fixedly connected with the upright post (3); the beam bottom of the short span beam (6) is flush with the plate bottom of the garage top plate (2).

3. The ground reservoir based on setting the plate bottom pipe gallery area of claim 2, characterized in that: the short span beams (6) are one or more of an upturned beam (61), an haunched upturned beam (62) or an haunched beam (63).

4. The ground reservoir based on setting the plate bottom pipe gallery area of claim 3, characterized in that: a plurality of at board bottom pipe gallery passageway (41) top and lane (42) top garage roof (2) are equallyd divide and are one kind or the combination of multiple in one-way board (21), one-way haunched board (22) or two-way board (23) respectively.

5. The ground reservoir based on setting the plate bottom pipe gallery area of claim 4, wherein: the haunch upturning beam (62), the haunch beam (63), the one-way haunch plate (22) and the haunch forms of other beams or plates comprise a rectangular haunch or a triangular haunch or a special haunch.

6. The ground reservoir based on setting the plate bottom pipe gallery area of claim 4, wherein: at least one hidden beam (24) is arranged on a plurality of garage roofs (2) on the tops of the plate-bottom pipe gallery channels (41) and the tops of the lanes (42), the hidden beam (24) extends along the short span direction, two ends of the hidden beam (24) are fixedly connected with the upright posts (3), and the hidden beam (24) and the garage roofs (2) are integrally cast and formed; the top and bottom surfaces of the hidden beam (24) are flush with the top and bottom surfaces of the garage top plate (2).

7. The ground reservoir based on the set floor bottom gallery area of any one of claims 1 or 4 to 6, wherein: be equipped with between board bottom pipe gallery passageway (41) and tower building (7) connecting channel (8), the both ends of connecting channel (8) are connected board bottom pipe gallery passageway (41) and tower building (7) respectively, are equipped with jumbo size pipeline (5) in connecting channel (8), jumbo size pipeline (5) in connecting channel (8) and the jumbo size pipeline (5) intercommunication in board bottom pipe gallery passageway (41).

8. The ground reservoir based on setting the plate bottom pipe gallery area of claim 7, wherein: the frame main beam (1) at the intersection of the connecting channel (8) and the plate bottom pipe gallery channel (41) is an upturning beam (61) or an haunched upturning beam (62).

9. The ground reservoir based on setting the plate bottom pipe gallery area of claim 8, characterized in that: each layer the top of garage monosomic body all is equipped with a plurality of small-size pipeline (9), and small-size pipeline (9) include water pipe (91) and cable testing bridge (92).

10. The basement based on setting floor pipe corridor of claim 9, wherein: the connecting channel (8) is intersected with the plate bottom pipe gallery channel; the small-size pipeline (9) is intersected with the large-size pipeline (5) in the connecting channel (8).

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