CN214116723U - Assembled basement drainage structures - Google Patents
Assembled basement drainage structures Download PDFInfo
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- CN214116723U CN214116723U CN202023144514.4U CN202023144514U CN214116723U CN 214116723 U CN214116723 U CN 214116723U CN 202023144514 U CN202023144514 U CN 202023144514U CN 214116723 U CN214116723 U CN 214116723U
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- reinforced concrete
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- prefabricated reinforced
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Abstract
The utility model relates to an assembled basement drainage structures is prevented by supreme down including in proper order: basement concrete bottom plate, prefabricated reinforced concrete board, cast in situ reinforced concrete surface course, architectural surface, wherein: the prefabricated reinforced concrete slab is provided with a prefabricated slab lower buttress, and a reserved gap is formed between the prefabricated reinforced concrete slab and the basement concrete bottom plate. Compared with the prior art, the utility model discloses a surface course that assembled basement waterproofing combined through adopting prefabricated reinforced concrete slab component and cast in situ concrete's combination, reserves the drainage blanket in the surface course, collects the infiltration that probably appears and introduces basement drainage ditch hole, can thoroughly eliminate the bottom plate and ooze the influence that the water used to the basement. The prefabricated reinforced concrete slab can be produced in batch in factory as a surface layer member, and the size of the slab can be adjusted according to transportation and hoisting conditions, so that the prefabricated reinforced concrete slab is favorable for basement engineering construction and assembly construction, and conforms to the national assembly type industrialization policy.
Description
Technical Field
The utility model belongs to the building engineering field specifically, relates to an assembled basement drainage structures of preventing.
Background
Large tracts of land basement cast in situ reinforced concrete bottom plate often because factors such as the discreteness of concrete material itself and concrete shrink lead to the appearance and the existence of small crack, under the groundwater pressure effect, some thin crack development can lead to appearing local infiltration point on the structure bottom plate after lining up. The common bottom plate surface layer in engineering is that a cast-in-place concrete surface layer is made on a structural bottom plate, a small amount of construction steel bars are arranged in the concrete surface layer, and the surface layer is constructed later than the bottom plate, so that a construction interface actually exists between the surface layer and the structural plate. When the structural bottom plate has a water seepage point, the seeped underground water can diffuse at the interface between the surface layer and the bottom plate under the action of pressure, and can seep out of the ground when meeting the crack of the surface layer, thereby influencing indoor use. From the angle of maintenance use, it has certain difficulty to discover that ground infiltration is directly effectively repaired, because the infiltration point of actual structure bottom plate often is not the infiltration position of surface course, need chisel out the surface course on a relatively large scale and just can find real infiltration position and carry out the slip casting and repair, this is made a change the normal use of repairing the process and is influenced the basement greatly.
SUMMERY OF THE UTILITY MODEL
The utility model provides a not enough to prior art, the utility model provides a surface course that assembled basement drainage prevention and water discharge combined through adopting prefabricated reinforced concrete board component and cast in situ concrete's combination, reserves the drainage blanket in the surface course, collects the infiltration that probably appears and introduces basement drainage ditch hole, and the top surface still remains certain thickness cast in situ concrete surface course to guarantee the integrality on basement ground.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
assembled basement drainage structures is prevented, by supreme down including in proper order: basement concrete bottom plate, prefabricated reinforced concrete board, cast in situ reinforced concrete surface course, architectural surface, wherein: the prefabricated reinforced concrete slab is provided with a prefabricated slab lower buttress, and a reserved gap is formed between the prefabricated reinforced concrete slab and the basement concrete bottom plate.
Preferably, the prefabricated reinforced concrete slab with the buttress has the size of 1.5-2.0m and the thickness of 40 mm.
Preferably, the precast slab lower buttress 6 is in a round table shape, the buttress is integrally cast with the slab during prefabrication, the height of the buttress is 20-30mm, the diameter is 30-50mm, and the adjacent distance is 150-200 mm.
Preferably, the thickness of the cast-in-place reinforced concrete surface layer is 40mm, an anti-cracking reinforcing mesh is arranged in the cast-in-place reinforced concrete surface layer, the reinforcing mesh is formed by bidirectional cross welding of reinforcing steel bars with the diameter of 4mm, and the spacing between the reinforcing steel bars is 150 mm.
Compared with the prior art, the beneficial effects of the utility model are as follows: the utility model discloses a surface course that assembled basement waterproofing combined through adopting prefabricated reinforced concrete slab component and cast in situ concrete's combination, reserves the drainage blanket in the surface course, collects the infiltration that probably appears and introduces basement drainage ditch hole, can thoroughly eliminate the bottom plate and ooze the influence that water was used to the basement. The prefabricated reinforced concrete slab can be produced in batch in factory as a surface layer member, and the size of the slab can be adjusted according to transportation and hoisting conditions, so that the prefabricated reinforced concrete slab is favorable for basement engineering construction and assembly construction, and conforms to the national assembly type industrialization policy. The utility model discloses an use, can thoroughly eliminate the bottom plate and ooze the influence of water to the basement use, the swift construction of the assembly of being convenient for again.
Drawings
FIG. 1 is a schematic view of an assembled basement waterproofing and drainage structure;
FIG. 2 is a schematic structural view of a prefabricated reinforced concrete slab;
in the figure, 1, a basement concrete bottom plate, 2, a reserved gap, 3, a prefabricated reinforced concrete slab, 4, a cast-in-place reinforced concrete surface layer, 5, a decorative surface layer, 6, a prefabricated slab lower buttress, 7, a bidirectional slab steel bar, h0, the thickness of the prefabricated slab, h1 and the height of the buttress.
Detailed Description
As shown in fig. 1 and 2, the assembled basement waterproof and drainage structure sequentially comprises from bottom to top: basement concrete bottom plate 1, prefabricated reinforced concrete board 3, cast in situ reinforced concrete surface course 4, architectural surface 5, wherein: the prefabricated reinforced concrete slab 3 is provided with a prefabricated slab lower buttress 6, and the prefabricated reinforced concrete slab 3 and the basement concrete bottom plate 1 form a reserved gap 2; through the combination of prefabricated reinforced concrete board and cast in situ concrete, reserve the drainage blanket in the surface course, collect the infiltration that probably appears and introduce basement drainage ditch hole, the top surface still remains certain thickness cast in situ concrete surface course to guarantee the integrality on basement ground.
Assembled basement drainage structures, constitute as follows:
the prefabricated reinforced concrete plate 3 with the buttress is adopted to be fully paved at the bottom of the surface layer, is used as a base layer of the upper integral casting layer, reserves a drainage cavity for the bottom, and is collected when meeting a drainage ditch or a water collection pit reserved on the bottom plate, so that the drainage gap reserved on the surface layer is unblocked beside the pit without separation.
The prefabricated reinforced concrete slab with the buttress 3 has the size of 1.5-2.0m and the thickness of 40 mm. Precast slab lower buttresses 6 are uniformly arranged on the bottom surface of the precast reinforced concrete slab 3, the precast slab lower buttresses 6 are in a circular truncated cone shape, the buttresses are integrally cast with the slab during prefabrication, the height of the buttresses is 20-30mm, the diameter of the buttresses is 30-50mm, and the adjacent distance is 150-200 mm; drainage cavities are formed between the buttresses 6. The setting of the precast reinforced concrete slab buttress 6, the thickness of the slab and the reinforcing bars can be designed and adjusted according to the installation and bearing requirements of actual engineering.
Pouring a cast-in-place fine aggregate concrete surface layer 4 above the prefabricated reinforced concrete slab 3, and doping a permeable crystallization type waterproof agent into the concrete surface layer 4, wherein the thickness of the permeable crystallization type waterproof agent is 40 mm; an anti-cracking steel bar mesh is arranged in the cast-in-place concrete surface layer 4, the steel bar mesh is formed by bidirectional cross welding of steel bars with the diameter of 4mm, and the spacing between the steel bars is 150 mm; the reinforcing mesh and the bottom prefabricated reinforced concrete plate are fixed by adopting a temporary support, so that the reinforcing mesh is ensured to be arranged in the middle of a cast-in-place concrete layer.
The top surface of the cast-in-place concrete surface layer is coated or paved with anti-skid and wear-resistant materials according to the requirements of decoration and use functions to form a decorative surface layer 5.
The surface course that assembled basement drainage prevention and water discharge combined through adopting prefabricated reinforced concrete slab component and cast in situ concrete's combination, reserves the drainage blanket in the surface course, collects the infiltration that probably appears and introduces basement drainage ditch hole, and the top surface still remains certain thickness cast in situ concrete surface course to guarantee the integrality on basement ground. The utility model discloses an use, can thoroughly eliminate the bottom plate and ooze the influence of water to the basement use, the swift construction of the assembly of being convenient for again.
Claims (4)
1. The utility model provides an assembled basement drainage structures, by supreme down including in proper order: basement concrete bottom plate, prefabricated reinforced concrete board, cast in situ reinforced concrete surface course, architectural surface, its characterized in that: the prefabricated reinforced concrete slab is provided with a prefabricated slab lower buttress, and a reserved gap is formed between the prefabricated reinforced concrete slab and the basement concrete bottom plate.
2. The assembled basement drainage structure of claim 1, wherein: the prefabricated reinforced concrete slab with the buttress, the size of a single prefabricated slab is 1.5-2.0m, and the thickness of the slab is 40 mm.
3. The assembled basement drainage structure of claim 2, wherein: the lower buttress of the prefabricated slab is in a round table shape, the buttress is integrally cast with the slab during prefabrication, the height of the buttress is 20-30mm, the diameter is 30-50mm, and the adjacent distance is 150-200 mm.
4. The assembled basement drainage structure of claim 3, wherein: the thickness of the cast-in-place reinforced concrete surface layer is 40mm, an anti-cracking reinforcing mesh is arranged in the cast-in-place reinforced concrete surface layer, the reinforcing mesh is formed by bidirectional cross welding of reinforcing steel bars with the diameter of 4mm, and the spacing between the reinforcing steel bars is 150 mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023144514.4U CN214116723U (en) | 2020-12-24 | 2020-12-24 | Assembled basement drainage structures |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023144514.4U CN214116723U (en) | 2020-12-24 | 2020-12-24 | Assembled basement drainage structures |
Publications (1)
Publication Number | Publication Date |
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CN214116723U true CN214116723U (en) | 2021-09-03 |
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CN202023144514.4U Active CN214116723U (en) | 2020-12-24 | 2020-12-24 | Assembled basement drainage structures |
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CN (1) | CN214116723U (en) |
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2020
- 2020-12-24 CN CN202023144514.4U patent/CN214116723U/en active Active
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