CN205046886U - A bank factory building structure for exchanging ooze mountain area power station - Google Patents

A bank factory building structure for exchanging ooze mountain area power station Download PDF

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Publication number
CN205046886U
CN205046886U CN201520805761.4U CN201520805761U CN205046886U CN 205046886 U CN205046886 U CN 205046886U CN 201520805761 U CN201520805761 U CN 201520805761U CN 205046886 U CN205046886 U CN 205046886U
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China
Prior art keywords
bank
factory building
mill construction
power station
mountain area
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CN201520805761.4U
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Chinese (zh)
Inventor
刘畅
张勇
彭薇薇
杨光伟
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PowerChina Chengdu Engineering Co Ltd
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PowerChina Chengdu Engineering Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

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Abstract

The utility model discloses a bank factory building structure especially discloses a bank factory building structure for exchanging ooze mountain area power station, belongs to marine structure affiliated facilities manufacturing and designing technical field. The utility model provides a loss that extreme climate or geological disasters caused for the bank factory building can be effectively reduced, operating personnel life safety's a bank factory building structure for exchanging ooze mountain area power station is protected. Bank factory building structure include bank plant ontology and with the tail water culvert of this bank plant ontology intercommunication, bank factory building structure still including enclosing fender system, prevention of seepage system and forced -ventilated system, the part of bank plant ontology more than flat with being located pass through the fender system that encloses go along with sb. To guard him, the part of bank plant ontology below flat with being located pass through the prevention of seepage system go along with sb. To guard him, get into the water that floods in the factory building structure of bank passes through the forced -ventilated system discharge the fender system that encloses, the tail water culvert is followed it wears out to enclose the lower part of fender system the fender system that encloses.

Description

For easily oozing the bank mill construction in power station, mountain area
Technical field
The utility model relates to a kind of bank mill construction, especially relating to a kind of bank mill construction for easily oozing power station, mountain area, belonging to hydraulic structure ancillary facility design and manufacturing technology field.
Background technology
In recent years, along with extreme climate and the geological disaster powerhouse of hydropower station caused that takes place frequently is flooded, happened occasionally by the event of burying, cause great property loss even casualties, the harm wherein caused safely plant area with flood, mud-stone flow disaster is again maximum.Step power station, the indivedual power stations of river valley, gulf, field etc. on step power station as each in Sichuan Virgin Forest, remote river; all because flood mud-rock flow floods or destroy by rush of water plant area and Important Hydraulic Structure, cause plant area's power-off to shut down even power station and the ill effect such as to damage completely.When run into easily infiltration mountain area geology time, if Anti-seeping technology is bad, under the impact and pressure of flood, mud-rock flow, the harm that bank, power station factory building is caused more greatly, more serious.It is not enough for special operation condition understanding that these phenomenons have highlighted hydropower station at present bank plant designing theory, the scarcity of the unsound and method for designing of design system.Improve and even create a kind of new design concept, design scheme, design to instruct " control flood-take precautions against natural calamities " in the power house along river bank district in following power station or a large amount of built bank hydraulic structures is undergone technological transformation, " control flood-take precautions against natural calamities " ability in factory building district, bank, power station will be improved greatly, there is larger economic benefit and effect of preventing and reducing natural disasters.
Utility model content
Technical problem to be solved in the utility model is: provide a kind of loss that effectively can reduce extreme climate or geological disaster and cause to bank factory building, the bank mill construction for easily oozing power station, mountain area of protection operating personnel life security.
For solving the problems of the technologies described above adopted technical scheme be: a kind of bank mill construction for easily oozing power station, mountain area, the tail water culvert comprising bank factory building body and be communicated with this bank factory building body, described bank mill construction also comprises enclosing system, seepage control system and forced-ventilated system, the part that described bank factory building body is positioned at more than Horizon is gone along with sb. to guard him by described enclosing system, the part that described bank factory building body is positioned at below Horizon is gone along with sb. to guard him by described seepage control system, enter in the mill construction of described bank flood water by described forced-ventilated system discharge described in enclosing system, described tail water culvert passes described enclosing system from the bottom of described enclosing system.
The beneficial effects of the utility model are: because described bank mill construction is except the tail water culvert comprising bank factory building body and be communicated with this bank factory building body, the application is also provided with enclosing system respectively centered by described bank factory building body, seepage control system and forced-ventilated system, and the part making described bank factory building body be positioned at more than Horizon is gone along with sb. to guard him by described enclosing system, the part making described bank factory building body be positioned at below Horizon is gone along with sb. to guard him by described seepage control system, enter in the mill construction of described bank flood water then by described forced-ventilated system discharge described in enclosing system.Like this; when there is extreme climate or geological disaster occurring; described bank factory building body is positioned at the part of more than Horizon can by described enclosing system protection; and the part that described bank factory building body is positioned at below Horizon can be protected by described seepage control system; thus to make described bank factory building body both make be build on the bank slope in easily infiltration mountain area; when there is extreme climate or geological disaster occurring; still can be effectively protected, reach the object reducing bank this bulk diffusion of factory building and protection operator safety.Simultaneously; both the extreme climate more than expected having made to occur that scope is little or geological disaster; make Partial Flood enter in the enclosing system of bank mill construction, the enclosing system described in also can being discharged by described forced-ventilated system, to protect the bank mill construction described in the application to greatest extent.
Further, the wall-retaining structure of outside side slope foundation construction of described enclosing system for relying on according to described bank factory building body.
The preferred embodiment of such scheme is, described wall-retaining structure is the Gravity Retaining Wall that postorder can be increased, reinforce, or the counterfort wall can increased, reinforce for postorder.
Further, be provided with and overlap keyway and water seepage prevention sheet between described wall-retaining structure and existing side slope, described wall-retaining structure is provided with into the anti-Hongmen Gate of factory, the described anti-Hongmen Gate of factory that enters includes rapidly opened and closed machinery.
Further, described seepage control system is be built in the antiseepage barricade below described enclosing system in basis, or is built in the impervious grouting curtain below described enclosing system in basis.
The preferred embodiment of such scheme is, described impervious grouting curtain is double grout hole grouting structure.
Be further, described forced-ventilated system comprises gutter, collecting well and pump drainage machinery, Horizon basis in the mill construction of described bank is arranged in length and breadth in described gutter, described collecting well is arranged in described bank mill construction with the described gutter arranged in length and breadth is supporting, and that collects through described gutter floods water by the bank mill construction described in the discharge of described pump drainage machinery.
The preferred embodiment of such scheme is, described gutter also comprises the draining circular groove moving towards setting along enclosing system, and described draining circular groove is also furnished with the collecting well closing on described enclosing system, is also furnished with described pump drainage machinery in described collecting well.
Further, the water (flow) direction of the natural river course beyond the water outlet direction of described tail water culvert and described bank mill construction adapts, and the depositional gradient that its slope is greater than described natural river course than i compares i 0.
Accompanying drawing explanation
Fig. 1 is the layout schematic diagram that the utility model is easy for easily oozing the bank mill construction in power station, mountain area;
Fig. 2 is the A-A sectional view of Fig. 1;
Fig. 3 is the B-B sectional view of Fig. 1;
Fig. 4 is the C-C portion view of Fig. 1.
Be labeled as in figure: bank factory building body 1, tail water culvert 2, enclosing system 3, seepage control system 4, forced-ventilated system 5, outside side slope basis 6, wall-retaining structure 7, enter the anti-Hongmen Gate of factory 8, rapidly opened and closed mechanical 9, gutter 10, collecting well 11, pump drainage machinery 12, draining circular groove 13, natural river course 14.
Detailed description of the invention
A kind of loss that effectively can reduce extreme climate or geological disaster and cause to bank factory building being that the utility model provides as shown in Figure 1 to 4, the bank mill construction for easily oozing power station, mountain area of protection operating personnel life security.The tail water culvert 2 that described bank mill construction comprises bank factory building body 1 and is communicated with this bank factory building body 1, described bank mill construction also comprises enclosing system 3, seepage control system 4 and forced-ventilated system 5, the part that described bank factory building body 1 is positioned at more than Horizon is gone along with sb. to guard him by described enclosing system 3, the part that described bank factory building body 1 is positioned at below Horizon is gone along with sb. to guard him by described seepage control system 4, and the water that floods entered in described bank factory building body 1 discharges described enclosing system 3 by described forced-ventilated system 5; Described tail water culvert 2 passes described enclosing system 3 from the bottom of described enclosing system 3.Because described bank mill construction is except the tail water culvert 2 comprising bank factory building body 1 and be communicated with this bank factory building body 1, the application is also provided with enclosing system 3 respectively centered by described bank factory building body, seepage control system 4 and forced-ventilated system 5, and the part making described bank factory building body 1 be positioned at more than Horizon is gone along with sb. to guard him by described enclosing system 3, the part making described bank factory building body 1 be positioned at below Horizon is gone along with sb. to guard him by described seepage control system 4, the water that floods entered in the mill construction of described bank then goes out described enclosing system 3 by described forced-ventilated system row 5.Like this; when there is extreme climate or geological disaster occurring; the part that described bank factory building body is positioned at more than Horizon can be protected by described enclosing system 3; and the part that described bank factory building body is positioned at below Horizon can be protected by described seepage control system 4; thus to make described bank factory building body 1 both make be build on the bank slope in easily infiltration mountain area; when there is extreme climate or geological disaster occurring; still can be effectively protected, reach the object reducing bank this bulk diffusion of factory building and protection operator safety.Simultaneously; both the extreme climate more than expected having made to occur that scope is little or geological disaster; make Partial Flood enter in the enclosing system 3 of bank mill construction, also can go out described enclosing system 3, to protect the bank mill construction described in the application to greatest extent by described forced-ventilated system row 5.
In above-mentioned embodiment, in order to simplify the structure of described enclosing system, both facilitated and constructed in newly building a power station, and facilitated again and build in reorganization and expansion power station, the wall-retaining structure 7 that the outside side slope basis 6 that described enclosing system 3 is set to rely on according to described bank factory building body 1 by the application is built.Now, the Gravity Retaining Wall that preferred described wall-retaining structure 7 can be increased for postorder, reinforce, or the counterfort wall can increased, reinforce for postorder.And the connection conveniently before described wall-retaining structure 7 and existing side slope, or the connection between described wall-retaining structure 7 and existed building, be provided with between described wall-retaining structure 7 and existing side slope and overlap keyway and water seepage prevention sheet., easily sending out, the realistic situation that geological disaster easily rises in order to adapt to power station, mountain area mountain torrents meanwhile, described wall-retaining structure 7 being provided with into the anti-Hongmen Gate 8 of factory, the described anti-Hongmen Gate of factory 8 that enters includes rapidly opened and closed mechanical 9.Like this; when appearance larger mountain torrents when entering in the bank mill construction described in the application; just rapidly opened and closed mechanical 9 can be had to open fast described enter the anti-Hongmen Gate 8 of factory and the flood in the bank mill construction entered described in the application or mud-rock flow discharged bank mill construction described in the application, to protect bank factory building body 1 to greatest extent by described.
With reference to existing leakage preventing structure, the conveniently construction of bank mill construction described in the application, can by described seepage control system 4 for being built in the antiseepage barricade below described enclosing system 3 in basis, also can by described seepage control system 4 for being built in the impervious grouting curtain below described enclosing system 3 in basis.Now, if select impervious grouting curtain, its preferred structure is double grout hole grouting structure, to improve anti-seepage effect, facilitates slurry filling.
Further, in order to both discharge the percolating water in ground, described enclosing system 3 is discharged to greatest extent occurring that mountain torrents enter again in bank mill construction described in the application, to protect the bank factory building body 1 described in the application, forced-ventilated system 5 described in the application comprises gutter 10, collecting well 11 and pump drainage machinery 12, Horizon basis in the mill construction of described bank is arranged in length and breadth in described gutter 10, described collecting well 11 is arranged in described bank mill construction with the described gutter 10 arranged in length and breadth is supporting, that collects through described gutter 10 floods water by the bank mill construction described in described pump drainage machinery 12 discharge, the design feature of enclosing system 3 has been built again in conjunction with the application, described gutter 10 also comprises the draining circular groove 13 moving towards setting along enclosing system, described draining circular groove 13 is also furnished with the collecting well 11 closing on described enclosing system 3, in described collecting well 11, is also furnished with described pump drainage machinery 12.Simultaneously, in order to catchmenting and entering the flood in the mill construction of bank in collecting well immediately can be discharged, in the application, relation between total evacuation ability ∑ W of the infiltration capacity Q in the volume V of described collecting well 11, described bank mill construction, the collection rainfall P in the mill construction of described bank and described pump drainage machinery 12 is determined by following formula
V≥(2x3600xQ)+(2x3600xP),
∑W≥Q+P,
Wherein, P is the collection rainfall summation of bank mill construction, and comprises plant area's amount of precipitation and possible rear side slope collection rainfall, unit m 3/ s;
∑ W is all pump drainage machinery evacuation ability summations be arranged in the mill construction of bank, but does not comprise mobile pump drainage machinery, unit m 3/ s;
Q is the leakage in the bank mill construction unit interval, unit m 3/ s;
V is collecting well volume, unit m 3/ s.
Sum up in prior art after often there is extreme climate or generation geological disaster, the field conditions of bank factory building, in order to ensure when above-mentioned situation early period of origination or situation are not very serious to greatest extent, power station can work on, or comparatively serious situation is when occurring, immediately can discharge tail water, the water (flow) direction of the natural river course 14 beyond the water outlet direction of described tail water culvert 2 and described bank mill construction adapts by the application, and the depositional gradient that its slope is greater than described natural river course 14 than i compares i 0.
In sum, after adopting the bank mill construction described in the application, the understanding of river, bank, mountain area for disaster especially flood-mud-stone flow disaster has been redefined to prior art; From risk angle, illustrate " Hydraulic and Hydro-Power Engineering grade classification and standard of flood ", " powerhouse of hydropower station design specifications " being not suitable with for factory building district, bank, power station, mountain area design of flood control performed at present.Propose with flood-mud-stone flow disaster standard, determine the flood control defense sector calamity standard of factory building district flood control enclosing structure.
Simultaneously, propose a set of flood control defense sector calamity theory newly, by integrating the existing resources and measure, set up enclosing system, antiseepage-forced-ventilated system, tail water from the function between heat-extraction system, foul sewer system, automatically monitoring-control system, escape system etc., collaborative different system, with lower investment, bring whole plant area level of taking precautions against natural calamities significantly to improve, there is higher efficiency-cost ratio.Simultaneously, each system layout of the present utility model has the advantages such as higher practicality, difficulty of construction are lower, construction interference is less, is applicable to the design of flood control of the bank factory building of vast newly-built mountain stream, built factory building district flood-proof technology transformation and by emergency repair reinstatement works after the calamity in Yan Mai factory building district.

Claims (9)

1. one kind for easily oozing the bank mill construction in power station, mountain area, the tail water culvert (2) comprising bank factory building body (1) and be communicated with this bank factory building body (1), it is characterized in that: described bank mill construction also comprises enclosing system (3), seepage control system (4) and forced-ventilated system (5), the part that described bank factory building body (1) is positioned at more than Horizon is gone along with sb. to guard him by described enclosing system (3), the part that described bank factory building body (1) is positioned at below Horizon is gone along with sb. to guard him by described seepage control system (4), enter in the mill construction of described bank flood water by described forced-ventilated system (5) discharge described in enclosing system (3), described tail water culvert (2) passes described enclosing system (3) from the bottom of described enclosing system (3).
2. the bank mill construction for easily oozing power station, mountain area according to claim 1, is characterized in that: the wall-retaining structure (7) that described enclosing system (3) is built for the outside side slope basis (6) relied on according to described bank factory building body (1).
3. according to claim 2 for easily oozing bank, power station, mountain area mill construction, it is characterized in that: the Gravity Retaining Wall that described wall-retaining structure (7) can be increased for postorder, reinforce, or the counterfort wall can increased, reinforce for postorder.
4. the bank mill construction for easily oozing power station, mountain area according to Claims 2 or 3, it is characterized in that: be provided with between described wall-retaining structure (7) and existing side slope and overlap keyway and water seepage prevention sheet, described wall-retaining structure (7) is provided with into the anti-Hongmen Gate of factory (8), the described anti-Hongmen Gate of factory (8) of entering includes rapidly opened and closed machinery (9).
5. the bank mill construction for easily oozing power station, mountain area according to claim 1, it is characterized in that: described seepage control system (4) for being built in the antiseepage barricade in basis, described enclosing system (3) below, or is built in the impervious grouting curtain in basis, described enclosing system (3) below.
6. the bank mill construction for easily oozing power station, mountain area according to claim 5, is characterized in that: described impervious grouting curtain is double grout hole grouting structure.
7. the bank mill construction for easily oozing power station, mountain area according to claim 1, it is characterized in that: described forced-ventilated system (5) comprises gutter (10), collecting well (11) and pump drainage machinery (12), Horizon basis in the mill construction of described bank is arranged in length and breadth in described gutter (10), described collecting well (11) is arranged in described bank mill construction with the described gutter (10) arranged in length and breadth is supporting, that collects through described gutter (10) floods water by the bank mill construction described in the discharge of described pump drainage machinery (12).
8. the bank mill construction for easily oozing power station, mountain area according to claim 7, it is characterized in that: described gutter (10) also comprises the draining circular groove (13) moving towards setting along enclosing system, described draining circular groove (13) is also furnished with the collecting well (11) closing on described enclosing system (3), in described collecting well (11), is also furnished with described pump drainage machinery (12).
9. the bank mill construction for easily oozing power station, mountain area according to claim 1,2,3,5,6,7 or 8, it is characterized in that: the water (flow) direction of the natural river course (14) beyond the water outlet direction of described tail water culvert (2) and described bank mill construction adapts, and the depositional gradient that its slope is greater than described natural river course (14) than i compares i 0.
CN201520805761.4U 2015-10-13 2015-10-13 A bank factory building structure for exchanging ooze mountain area power station Active CN205046886U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105178648A (en) * 2015-10-13 2015-12-23 中国电建集团成都勘测设计研究院有限公司 Shore-side plant structure for hydropower station in easy-to-seep mountainous area

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105178648A (en) * 2015-10-13 2015-12-23 中国电建集团成都勘测设计研究院有限公司 Shore-side plant structure for hydropower station in easy-to-seep mountainous area

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