CN209570373U - A kind of gravity type sampler of additional spiral paddle pod - Google Patents

A kind of gravity type sampler of additional spiral paddle pod Download PDF

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Publication number
CN209570373U
CN209570373U CN201920149965.5U CN201920149965U CN209570373U CN 209570373 U CN209570373 U CN 209570373U CN 201920149965 U CN201920149965 U CN 201920149965U CN 209570373 U CN209570373 U CN 209570373U
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China
Prior art keywords
sampler
gravity type
propeller
propeller blade
pod
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Expired - Fee Related
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CN201920149965.5U
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Chinese (zh)
Inventor
马哲
徐宏
王胤
曾稳
翟钢军
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Dalian University of Technology
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Dalian University of Technology
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Priority to CN201920149965.5U priority Critical patent/CN209570373U/en
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Abstract

A kind of gravity type sampler of additional spiral paddle pod, belongs to ocean engineering field.The gravity type sampler further includes propeller type pod, and pod is located on the tail vane on driving lead pan top.Fairwater sleeve, which is located at, to be mentioned below tube head, is fixed on tail vane.Fairwater sleeve includes thin-walled cylinder, propeller blade, propeller hub.Propeller blade and propeller hub use bearing type connection, and be fixed on tail vane by propeller hub, propeller blade periphery and thin-walled cylinder medial surface are affixed, for preventing blade and release contact winding, " stranded cable " phenomenon is prevented, propeller blade inclination angle is not more than 50 °.Overall stability when the utility model can keep gravity type sampler to fall in a fluid, reduces the inclination angle of sampler, to be more applicable for deep sea surveying operation.The utility model have many advantages, such as structure it is simple, it is cheap, be easily installed and dismantle, strong operability, be suitable for deep-sea sampling, experiment etc. operations.

Description

A kind of gravity type sampler of additional spiral paddle pod
Technical field
The utility model belongs to ocean engineering field, is related to a kind of gravity type sampler of additional spiral paddle pod, Suitable for deep sea surveying sampling operation.
Background technique
Currently, the sight of domestic and foreign scholars gradually focuses on ocean engineering, and seafloor soil Quality Research is increasingly becomed One hot spot Scientific Research Problem.Therefore, under complicated sea situation, how high efficiency obtains seabed soil sample with very important for research Meaning.There are many method for obtaining seabed soil sample, and wherein gravity type sampler is because have structure to be simple and convenient to operate and sample The advantages that cost is relatively low becomes the common method for obtaining seabed soil sample.
Gravity type sampler, that is, sampler is mainly used for the sampling of bottom sediment, the basic principle is that sampler relies on certainly The gravity injection seabed of body, obtains the bottom sediment sample for being similar to depth of penetration, and depth of penetration depends on seabed The planform and counterweight of hardness and sampler.As country puts more effort to habitata and the Technique Popularizing of gravity core, It is therefore desirable to the structures to gravity type sampler to optimize.
All kinds of sampler working principles are almost the same, and when operation first above deck assembles sampler, then allow Surveying vessel is in state of drifting, and opens gantry crane and winch, hangs up sampler, and gantry crane boom stretches out outboard, manipulates winch, discharges cable Sampler is placed seabed by rope, behind device injection to be sampled seabed, is recycled hawser, is withdrawn sampler.
But in sampling process, ocean current and ship drift are affected to sampler whereabouts posture, to influence to sample Effect.Due to the unpredictability of sea situation, practitioner, which makes great efforts to explore one kind always, promotes gravity type sampler whereabouts posture more Add stable structure, to gradually sight is focused in the structure optimization of gravity type sampler.
Utility model content
The utility model is directed to the rough sledding that above-mentioned gravity type sampler encounters in dropping process, provides a kind of additional The gravity type sampler of propeller type pod.Wherein pod principle is the streamline uniform divided flows that can make water flow along blade, Improve pod Flow Field Distribution nearby, it is therefore intended that promote gravity type sampler sampling process more stable, to improve sampling Efficiency.
In order to achieve the above object, the technical solution adopted in the utility model are as follows:
A kind of gravity type sampler of additional spiral paddle pod, including sampling pipe 7, driving lead pan 5, tail vane 3, pipe joint 6, fairwater sleeve 4.
The sampling pipe 7 belongs to soil sample and takes equipment, and 7 top of sampling pipe connect with pipe joint 6, takes without permeable measure Processing;7 bottom of sampling pipe is equipped with the edge of a knife 9, and the edge of a knife 9 reduces soil-entering resistance for cutting soil.
The driving lead pan 5 is lamellar circular ring structure, as weight main body is applied, can be matched by adjusting the adjusting of lead pan quantity Weight is to meet different sample requirements.Driving 5 lower part of lead pan is connect by pipe joint 6 with sampling pipe 7, and seamless place is taken in junction Reason.
The tail vane 3 belongs to conventional balanced device, cylindrical, and top is connect by mentioning tube head 2 with wirerope fixture 1, It is connected by wirerope with power-equipment on ship, bottom is connect with driving lead pan 5.The tail vane 3 preferably uses rigidity big, and density is small Material be made, avoid bottoming out weight and be allowed to deform.
The fairwater sleeve 4, which is located at, mentions the lower section of tube head 2, is fixed on tail vane 3 that (specific location can match according to lead pan Reset section), for reducing the disturbing influence of water flow, to keep the stability of sampler.The fairwater sleeve includes Thin-walled cylinder 10, the propeller blade 11 being obliquely installed, propeller hub 12;The propeller blade 11 is connected with propeller hub 12 using bearing-type It connects, and is fixed on tail vane 3 by propeller hub 12,11 periphery of propeller blade is affixed with 10 medial surface of thin-walled cylinder, for preventing Blade and release contact winding, propeller blade 11 is freely rotatable under flow action, to be produced from lift holding The stability of sampler.
The inclination angle of the propeller blade 11 is not more than 50 °, and the diameter of thin-walled cylinder 10 is 0.2m~0.5m, height For 10cm~25cm, skew back setting has larger impact to composite propeller hydrodynamic performance, gives full play to pod and exist The advantage of disturbance rejection in flow field maintains sampler overall stability.
The propeller blade 11 uses advanced composite material (ACM), this material is corrosion-resistant, shock resistance, and density is relative to biography Steel density used in propeller blade of uniting is much smaller.Wherein, advanced composite material (ACM) uses epoxy novolac material.
Further, the gravity type sampler can also be in the affixed spring petal 8 in 7 bottom end of sampling pipe, spring petal 8 It is mounted on 9 top of the edge of a knife, for preventing the sample of acquisition to be lost.
Further, the piece number of the propeller blade 11 is not less than 3, preferably 6.
Compared with existing sampler and traditional sampling equipment, the utility model has the following beneficial effects:
The utility model is simple to manufacture, is easy for installation, is at low cost, and new in structure, can effectively reduce traditional sampling The drawbacks of device easily tilts is suitable for the extensive use of sampler.
Detailed description of the invention
Fig. 1 is the utility model overall structure schematic three dimensional views.
Fig. 2 is the utility model structure chart.
The fairwater sleeve structure chart of Fig. 3 the utility model.
In figure: 1 wirerope fixture, 2 mention tube head, 3 tail vanes, 4 fairwater sleeves, 5 driving lead pans, 6 connecting flanges (adapter tube Head), 7 sampling pipes, 8 spring petals, 9 edges of a knife, 10 thin-walled cylinders, 11 propeller blades, 12 propeller hubs.
Specific embodiment
With reference to the accompanying drawing, the technical solution of the utility model is described in further detail.
Probe tube 7, spring petal 8, driving lead pan 5 (applying weight main body), 3 and of tail vane are equipped with referring to the utility model of Fig. 1~3 Fairwater sleeve 4.Spring petal 8 is mounted on the top of the edge of a knife 9, and the sample of acquisition is enclosed in probe tube, prevents its loss, Probe tube and spring petal fix (or being fixed with welding technique) with CARBURIZING FURNACE FOR STAINLESS FASTENER.Driving is lamellar annulus inside lead pan 5 Structure, convenient for adjusting counterweight number of blocks.3 lower part of tail vane is connected with driving lead pan 5, and top is fixed with tube head 2 is mentioned with bolt.Spiral Paddle pod 4, which is located at, mentions 2 lower section of tube head, takes bearing type connection with the tail vane 3 of traditional form.
Referring to Fig. 1~2, propeller blade 11 is fixed on propeller hub 12, and skew angle is 20 °, and number of blade is 6 and (is not limited to 6 Piece), diameter 30cm, peripheral 10 height of thin-walled cylinder is 15cm, and with a thickness of 0.2cm, pod revolves automatically under the action of water flow Turn, to be produced from lift to maintain sampler overall stability.
Probe tube tube body diameter is set as 8cm, and outer diameter is set as 10cm, and sampling length of tube is set as 5m, and driving lead pan is set It is set to 400kg.
A kind of course of work of the gravity type sampler of additional spiral paddle pod:
The first step, decentralization process:
Attached weight chain is connected with wirerope fixture, can according to sampling depth needs, adjust first attached weight chain length and Release altitude (release altitude is that attached weight chain length subtracts sampler overall length), and attached weight weight is calculated, stop piston steel Cable length surplus.When wirerope is transferred on ship, the attached weight in the release left side, which provides traction force, makes release lever hang tight the right Sampler, guarantee sampler safely transfer.
Second step, free-falling process:
When sampler will reach seabed, attached weight contacts seabed first, and the traction force of attached weight disappears on lever, releases Device disequilibrium, triggering release release are put, entire sampler breaks off relations in the release altitude of setting and discharges, and propeller type empennage exists It rotates under action of ocean current, to change the flow field near sampler, to make sampler freely falling body in propeller type tail Steady fall under the action of the wing.
Third step, sampling process:
Probe tube is by the kinetic energy injection seabed obtained in dropping process, while the plunger lock in sampler is in deposit At the position of water interface, and probe tube injection deposit under effect of inertia completes sampling.
4th step mentions back after the completion of sampling:
After the completion of sampling, entire sampler is lifted using wire rope pulling piston, completes primary sample process.It is totally-enclosed The sealing of edge of a knife association type can prevent sample from falling off when lifting.
Embodiment described above only expresses the embodiments of the present invention, and but it cannot be understood as practical to this The limitation of the range of new patent, it is noted that for those skilled in the art, do not departing from the utility model design Under the premise of, various modifications and improvements can be made, these belong to the protection scope of the utility model.

Claims (5)

1. a kind of gravity type sampler of additional spiral paddle pod, including sampling pipe (7), driving lead pan (5), tail vane (3), connect Tube head (6), which is characterized in that the gravity type sampler further includes fairwater sleeve (4);
The driving lead pan (5) is lamellar circular ring structure, as weight main body is applied, can adjust counterweight by adjusting lead pan quantity To meet different sample requirements;Driving lead pan (5) lower part is connect by pipe joint (6) with sampling pipe (7), and nothing is taken in junction Seam processing, driving lead pan (5) top are equipped with tail vane (3);The tail vane (3) belongs to conventional balanced device, and top is by mentioning tube head (2) it connect with wirerope fixture (1), is connected by wirerope with power-equipment on ship;
The fairwater sleeve (4), which is located at, to be mentioned below tube head (2), is fixed on tail vane (3), specific location can be according to lead pan Counterweight is adjusted, and for reducing the disturbing influence of water flow, keeps the stability of sampler;The fairwater sleeve includes thin-walled Cylinder (10), the propeller blade (11) being obliquely installed, propeller hub (12);The propeller blade (11) and propeller hub (12) use axis Formula connection is held, and is fixed on tail vane (3) by propeller hub (12), propeller blade (11) periphery and thin-walled cylinder (10) medial surface It is affixed, blade and release contact winding are prevented, propeller blade (11) is freely rotatable under flow action, to generate The stability of sampler is kept from lift;
The piece number of the propeller blade (11) is not less than 3;
The inclination angle of the propeller blade (11) is not more than 50 °, and the diameter of thin-walled cylinder (10) is 0.2m~0.5m, height For 10cm~25cm.
2. a kind of gravity type sampler of additional spiral paddle pod according to claim 1, which is characterized in that described Gravity type sampler can also be mounted on sampling pipe (7) bottom in the affixed spring petal (8) in sampling pipe (7) bottom end, spring petal (8) The edge of a knife (9) top in portion, for preventing the sample of acquisition to be lost.
3. a kind of gravity type sampler of additional spiral paddle pod according to claim 1 or 2, which is characterized in that institute The propeller blade (11) stated uses epoxy novolac material.
4. a kind of gravity type sampler of additional spiral paddle pod according to claim 1 or 2, which is characterized in that institute The piece number for the propeller blade (11) stated is 6.
5. a kind of gravity type sampler of additional spiral paddle pod according to claim 3, which is characterized in that described The piece number of propeller blade (11) is 6.
CN201920149965.5U 2019-01-29 2019-01-29 A kind of gravity type sampler of additional spiral paddle pod Expired - Fee Related CN209570373U (en)

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CN201920149965.5U CN209570373U (en) 2019-01-29 2019-01-29 A kind of gravity type sampler of additional spiral paddle pod

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
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Publications (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109632373A (en) * 2019-01-29 2019-04-16 大连理工大学 A kind of gravity type sampler of additional spiral paddle pod

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109632373A (en) * 2019-01-29 2019-04-16 大连理工大学 A kind of gravity type sampler of additional spiral paddle pod
CN109632373B (en) * 2019-01-29 2024-05-17 大连理工大学 Gravity type sampler with propeller air guide sleeve

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Granted publication date: 20191101

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