CN201447720U - Deep-water underwater excavating device - Google Patents
Deep-water underwater excavating device Download PDFInfo
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- CN201447720U CN201447720U CN2009200455073U CN200920045507U CN201447720U CN 201447720 U CN201447720 U CN 201447720U CN 2009200455073 U CN2009200455073 U CN 2009200455073U CN 200920045507 U CN200920045507 U CN 200920045507U CN 201447720 U CN201447720 U CN 201447720U
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- mud
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- pipe
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Abstract
The utility model relates to a deep-water underwater excavating device, which mainly comprises a floating body, a submersible motor, a submersible mud pump and a sucker. The submersible motor is hung at the bottom of the floating body and is suspended in water. The bottom end of the submersible motor is sequentially connected with a coupling, a shaft sleeve water stopping device and the submersible mud pump. The submersible mud pump is connected with a mud draining pipe and a mud sucking pipe. The mud draining pipe is communicated with the atmosphere. A fixed lifting rod is perpendicularly connected with the floating body. The bottom end of the fixed lifting rod is connected with an elbow. The mud sucking pipe is connected with the sucker through the elbow. The utility model has the advantages that the structure is simple, the construction is convenient, the construction period is short, the energy consumption is low, the work efficiency is high, no crane or gantry crane is required to assisting the construction, the construction cost is low, the transportation, the installation, the operation and the maintenance are convenient, and the deep-water underwater excavating device is suitable for all kinds of deep-water underwater excavations.
Description
Technical field
The utility model relates to a kind of desilting, dredging plant, mainly is to be applicable to that the not dewatering excavation earthwork of deep pit digging, deep water under water, large-scale well-sinking sinking underwater excavation, Jiang Hai get the underwater excavation device in the construction workss such as getting sand in sand, the castinplace pile.
Background technology
Fast development along with hydraulic engineerings such as foundation ditch, deep-well excavations is limited by depth of implements, and is more and more higher to the requirement of excavating device.In the prior art, particularly sink to generally adopting plant equipment such as air suction dredge, diving gravel pump, grapple dredge to construct to the draining soil excavation of ultradeep well to foundation ditch, deep-well excavation.
The air suction dredge is to carry enough air quantity to enter in the bellows chamber of suction dredge by air compressor, and in the suction dredge pipe, spray, form the pyramid type high velocity air to mud pipe outlet discharging, thereby take away muddy water and air in dredging tube and the mud pipe, and cause negative pressure in the suction dredge bottom, and produce suction, silt particle, stone and water are sucked dredging tube, successively discharge outside the mud pipe in company with high pressure draught, thereby reach the purpose of removing soil.But air suction dredge air energy loss when operation is big, needs large-scale power-equipment to guarantee enough kinetic energy is provided, and power consumption is huge; During construction operation, must rely on crane or straddle truck coordinative construction, construction is inconvenient, has increased the cost input.
Diving gravel pump when work operated by rotary motion in operation bottom, this is quite high to diving gravel pump waterproof requirement, once leak, repairs cumbersome; The diving gravel pump is for a long time at the profundal zone construction operation, and is big to the wearing and tearing of machinery, and reduce the application life of machinery greatly; The diving gravel pump also will drop into crane and straddle truck coordinative construction, has increased the complexity of construction.
Number of patent application is that the use of slush pump in 200710119274.2 and 200410023299.9 can not make full use of its suction journey and lift, can not bring into play peak power, wastes energy the cost height; The patent No. is 200520045961.0 deepwater dredging device, discloses a kind of device that utilizes gas compressor and compression pump to carry out deepwater dredging, though this technology can satisfy the deepwater dredging requirement, but complex structure, corollary equipment is many, and inconvenient maintenance is not suitable for promoting the use of.
Summary of the invention
In order to overcome complex structure in the prior art, corollary equipment is many, and difficulty of construction is big, the construction cost height, power utilization is low, and it is not enough to waste energy etc., and it is a kind of simple in structure that the purpose of this utility model provides, the construction maintenance is easy, need not large-scale ancillary facility, energy loss is low, saves construction cost significantly, high efficiency is inhaled the big deepwater underwater excavation device of mud amount.
In order to achieve the above object, the technical solution adopted in the utility model is: deepwater underwater excavation device mainly comprises buoyancy aid, submersible electric motor, diving slurry pump, suction nozzle, it is characterized in that submersible electric motor suspends in water and is hung on the bottom surface of water surface upper float, submersible electric motor connects shaft joint, axle sleeve antipriming, diving slurry pump successively, diving slurry pump connects mud pipe and dredging tube, mud pipe communicates with atmosphere, and dredging tube connects suction nozzle through elbow.Diving slurry pump suspends in water, and by regulating the slush pump degree of depth under water, makes full use of the suction journey and the lift of slush pump, and performance slush pump peak power can increase cutting depth, and applicable situation is many, scope is wide; Dredging tube between slush pump and suction nozzle adopts rubber hose, can excavate after the disposable adapter tens meters dark and do not need to take over again, change the energy losses that all adopt hard tubes to cause in the work progress because of the discrepancy in elevation.
Further, vertically be connected and fixed elevating lever on the described buoyancy aid, fixing elevating lever connecting bend, the elbow submarine site is higher than diving slurry pump, produce siphon in elbow and the dredging tube that diving slurry pump is connected, accelerate slush pump and inhaled mud speed, fixedly but elevating lever positioning stablity ground is placed suction nozzle and is kept suction nozzle underwater operation balance, cooperate diving slurry pump can regulate elbow, suction nozzle submarine site intuitively, simple to operate, improved the device operating efficiency, energy loss is low, energy conservation, the security performance height.
Again further, suction nozzle comprises the interior pipe and the outer tube of both ends open, and interior pipe is connected with elbow, outside the pipe, is provided with the helical water guide ring in the tube gap that outer tube and interior pipe are nested in the outer tube socket is fixed in, and has a plurality of drainage openings on the tube wall of interior pipe lower end.During the suction nozzle underwater operation, water body is subjected to suction in the interior pipe of suction nozzle, and the helical water guide ring produces the helicon current between inner and outer pipes, dashes under the drainage opening, suction mud can break ground, do not produce the line clogging phenomenon, can not cause plugging yet, improve and inhale mud efficient even the suction nozzle pipeline is embedded in the mud, it is rational in infrastructure, the pipeline blocking-proof result is good, need not additional source of energy, reduced use cost.
The utility model utilized head draught head, siphon principle, by diving slurry pump and unique sucker structure and in conjunction with the advantage of flexible pipe and hard tube, with the sucking-off of deep water silt mixture, can excavate 80 meters underwater soils, go out to manage mud content 12%~20%, give full play to the slush pump peak power, construction period can not only be shortened, energy loss is low, in work progress, many energy be can save, and coordinative constructions such as crane or straddle truck, easy construction need not to rely on, reduce construction cost, high efficiency.The utility model is simple in structure, transportation, installation, operation, easy to maintenance, use cost is low, servicing machine, adapter are conveniently in the work progress, need not all hang equipment in the water, be applicable to foundation ditch, the desilting of deep water excavation, the dredging hydraulic engineering of various occasions, be specially adapted in the construction works of ultradeep well well sinking soil excavation.
Description of drawings
Fig. 1 is the structural representation of an embodiment of the utility model;
Fig. 2 is the structural representation of another embodiment of the utility model;
Fig. 3 is the perspective view of suction nozzle of the present utility model.
Among the figure: submersible electric motor 1, shaft joint 2, axle sleeve antipriming 3, diving slurry pump 4, buoyancy aid 5, mud pipe 6,61, dredging tube 7, elbow 8, fixedly elevating lever 9, suction nozzle 10, relay pump 11, interior pipe 12, outer tube 13, helical water guide ring 14, drainage opening 15.
The specific embodiment
The utility model is described in further detail below in conjunction with drawings and Examples.
An embodiment shown in Fig. 1, the deep-well underwater excavation device comprises buoyancy aid 5, submersible electric motor 1, diving slurry pump 4, mud pipe 6, dredging tube 7, suction nozzle 10, buoyancy aid 5 on bubbling through the water column is an operating platform, the submersible electric motor 1 that is suspended in the deep water is hung in its bottom surface, submersible electric motor 1 is through shaft joint 2, axle sleeve antipriming 3 connects diving slurry pump 4, connect mud pipe 6 and dredging tube 7 on the diving slurry pump 4, mud pipe 6 communicates with atmosphere, dredging tube 7 connects suction nozzle 10 through elbow 8, be connected and fixed elevating lever 9 on the elbow 8, fixedly the body of rod that surfaces of elevating lever 9 is vertically connected at buoyancy aid one side.
Calculated examples:
The calculated examples that provides in following table, according to formula: the * δ * f of H* ρ 〉=(H-h), ρ is the proportion of water in the formula, δ is a mud mixture proportion, f is mud mixture average friction resistance in pipeline, H is a cutting depth, h is the slush pump underwater degree of depth. ρ in this calculating formula, δ, f, these three parameters are fixed, under known cutting depth H, by changing the displacement that the underwater degree of depth of diving slurry pump (h value) changes dredging tube, thereby determine the underwater optimum position of diving slurry pump, allow the mutual balance of flow velocity of centrifugal action that diving slurry pump produces in when work and the generation of head pressure difference, reduce the energy loss of diving slurry pump as far as possible, allow the energy of diving slurry pump make full use of, loss is dropped to minimum. in addition, head pressure difference and negative pressure will satisfy 0.6 atmospheric pressure could allow mud mixture reach certain flow rate, sucking-off in the dredging tube. the present invention is cutting depth as required, select suitable slush pump, by regulating the underwater degree of depth of slush pump, reach optimum working efficiency.
This calculated examples adopts lift 12m, inhales the diving slurry pump of journey 80m, mud mixture proportion 1.12X10
3Kg/m
3, mud mixture is average friction resistance 1.1 in pipeline.
Another embodiment of the present utility model shown in Fig. 2, according to above design formulas and calculated examples, during the excavation hadal depth, by the character of silt mixture and the slush pump power of selecting for use, the mud pipe 6 of diving slurry pump 4 can connect a relay pump 11, relay pump 11 is arranged on the buoyancy aid 5, and relay pump 11 connects mud pipe 61.
During work, with submersible electric motor 1, shaft joint 2, axle sleeve antipriming 3 and diving slurry pump 4, suction nozzle 10, dredging tube 7, fixedly elevating lever is put under water, and make suction nozzle 10 be in deep water excavation place, again the fixedly elevating lever 9 emersed bodies of rod of connecting bend 8 being connected in buoyancy aid 5 one sides can excavate, the degree of depth under water by diving slurry pump 4 and elbow 8 are regulated in the degree of depth requirement of excavation realizes deepwater underwater excavation.
Claims (3)
1. deepwater underwater excavation device, mainly comprise buoyancy aid (5), submersible electric motor (1), diving slurry pump (4), suction nozzle (10), it is characterized in that: described submersible electric motor (1) is hung on buoyancy aid (5) bottom surface and suspends in water, submersible electric motor (1) bottom connects shaft joint (2), axle sleeve antipriming (3), diving slurry pump (4) successively, diving slurry pump (4) is gone up and is connected mud pipe (6) and dredging tube (7), mud pipe (6) communicates with atmosphere, and dredging tube (7) connects suction nozzle (10) through elbow (8).
2. deepwater underwater excavation device according to claim 1 is characterized in that: vertically be connected and fixed elevating lever (9) on the described buoyancy aid (5), fixedly elevating lever (9) connecting bend (8).
3. deepwater underwater excavation device according to claim 1, it is characterized in that: described suction nozzle (10) comprises the interior pipe (12) and the outer tube (13) of both ends open, interior pipe (12) is connected with elbow (8), outer tube (13) socket is fixed in outside the interior pipe (12), be provided with the helical water guide ring (14) that is placed in outer wall of inner tube in the tube gap that outer tube and interior pipe are nested, have a plurality of drainage openings (15) on the tube wall of interior pipe lower end.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009200455073U CN201447720U (en) | 2009-05-19 | 2009-05-19 | Deep-water underwater excavating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009200455073U CN201447720U (en) | 2009-05-19 | 2009-05-19 | Deep-water underwater excavating device |
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CN201447720U true CN201447720U (en) | 2010-05-05 |
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CN2009200455073U Expired - Fee Related CN201447720U (en) | 2009-05-19 | 2009-05-19 | Deep-water underwater excavating device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101560780B (en) * | 2009-05-19 | 2011-03-23 | 俞建国 | Deepwater underwater excavation device |
CN111236233A (en) * | 2020-02-10 | 2020-06-05 | 浙江宝盛建设集团有限公司 | Method for removing pile head floating slurry of cast-in-place pile |
-
2009
- 2009-05-19 CN CN2009200455073U patent/CN201447720U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101560780B (en) * | 2009-05-19 | 2011-03-23 | 俞建国 | Deepwater underwater excavation device |
CN111236233A (en) * | 2020-02-10 | 2020-06-05 | 浙江宝盛建设集团有限公司 | Method for removing pile head floating slurry of cast-in-place pile |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20100505 Termination date: 20110519 |