CN103224009A - Sludge collection ship for wetland - Google Patents

Abstract

The invention provides a sludge collection ship for a wetland, belongs to the technical field of ships, and solves the technical problems that the conventional sludge collection ship for the wetland is easy to sink, inconvenient to walk and the like. The sludge ship for the wetland comprises a ship body provided with a bottom plate, wherein a travelling mechanism capable of driving the ship body to walk forward or backward is arranged on the ship body; and a sludge collecting mechanism capable of collecting the sludge in the wetland into the ship body and an anti-sinking mechanism used for preventing the ship from sinking are further arranged on the ship body. The sludge collection ship for the wetland has the advantages of free walking, low sinking probability, safer use and the like.

Description

The mud acquisition vessel that a kind of wetland is used

Technical field

The invention belongs to the ship technical field, relate to a kind of mud acquisition vessel, the mud acquisition vessel that particularly a kind of wetland is used.

Background technology

Wetland refers to that marshy area of natural or artificial formation etc. has the shoal water zone in blocks of static or current water, also is included in the low water time depth of water and is no more than 6 meters waters.Wetland and forest, ocean also claim the whole world the three big ecosystems, and be widely distributed all over the world.A large amount of animals and plants that surviving in the wetlands ecosystems, a lot of wetlands are listed in the landscape reservation.China's wetland area accounts for 10% of world's wetland, occupies first in Asia, the 4th in the world.Wetland is precious natural resources, also is the important ecosystem, has irreplaceable comprehensive function.

But along with industry and ecological pollution, a large amount of mud has appearred in wetland, and a kind of by the solid sediment matter that water and sewage disposal process produced, its water ratio height, the organic content height is degenerated smelly easily.Mud granule is thinner, and proportion is less, is gluey liquid, is the concentrated thing between liquid and solid, can use pump delivery, but it very difficultly carries out Separation of Solid and Liquid by sedimentation, and concentration of suspension is lower than this concentration and usually is called mud generally 1%～10%.Because the source and the method for treating water difference of mud, the sludge quality of generation differs, and the kind of mud is a lot, and the classification more complicated generally can be divided into sewage mud, industrial wastewater sludge at present and give sewage sludge.

Because the intractability of mud is higher, the research that therefore need experimentize to composition, the characteristic of mud is to draw definite data.At present the mud of experiment usefulness enters wetland by ship substantially and manually gathers, but since the environment of wetland to be not picture river course, lake surface unimpeded, be accompanied by plant, mud etc. through regular meeting, so general ship can't navigate by water in wetland; Simultaneously, if general ship is loaded onto sampling instrument, experimental facilities etc. thereon, cause the buoyancy possibility of ship not enough like this, and the wetland environment requires than higher the buoyancy of ship, in case ship is trapped in the wetland, not only can cause bigger economic loss, serious even life security that influence staff on the ship.

Summary of the invention

The objective of the invention is to have the problems referred to above, proposed the mud acquisition vessel that a kind of wetland is used at existing technology, this mud acquisition vessel have walking freely, be difficult for, use safer characteristics.

Purpose of the present invention can realize by following technical proposal: the mud acquisition vessel that a kind of wetland is used, comprise hull with base plate, it is characterized in that, described hull is provided with and can drives the traveling gear that hull advances or retreats, and also is provided with on the described hull mud in the wetland to be collected getting mud mechanism and preventing the anti-sinking mechanism that hull sinks in the hull.

In the mud acquisition vessel that above-mentioned wetland is used, mudmat and back mudmat before described anti-sinking mechanism comprises, mudmat and back mudmat all adopt wood materials to make before described, the mudmat lower end is hinged on the hull front end before described, and the lower face of preceding mudmat can be mutually concordant with the base plate of described hull, mudmat lower end, described back is hinged on the hull rear end, and the lower face of back mudmat can be mutually concordant with the base plate of described hull, and described preceding mudmat upper end and mudmat upper end, back all detachably are positioned on the hull.

In the mud acquisition vessel that above-mentioned wetland is used, described traveling gear comprises left erecting bed and the right erecting bed that is fixed on the hull both sides external, described left erecting bed top is provided with left lifter plate, be provided with the left elevation positioning structure that can drive left lifter plate oscilaltion and left lifter plate location is lived between described left erecting bed and the left lifter plate, be fixed with left drive motor on the described left lifter plate, be fixed with the lobus sinister wheel on the output shaft of described left drive motor; Described right erecting bed top is provided with right lifter plate, be provided with the right elevation positioning structure that can drive right lifter plate oscilaltion and right lifter plate location is lived between described right erecting bed and the right lifter plate, be fixed with right drive motor on the described right lifter plate, be fixed with the lobus dexter wheel on the output shaft of described right drive motor.

In the mud acquisition vessel that above-mentioned wetland is used, the described mud mechanism of getting comprises excavating pump and the storage bin that is fixed on the hull, the delivery pipe of described excavating pump is connected with described storage bin, be fixed with inductor on the inwall of described storage bin, also be fixed with the PLC Programmable Logic Controller on the outer wall of described storage bin, described inductor links to each other with the PLC Programmable Logic Controller with circuit two by circuit one respectively with excavating pump.

In the mud acquisition vessel that above-mentioned wetland is used, be fixed with front support rod and front motor on the described hull, described front support rod upper end is fixed with front wheel, the mudmat upper end is fixed with a preceding cable wire before above-mentioned, and the described preceding cable wire other end is wound on the output shaft of front motor by front wheel.

In the mud acquisition vessel that above-mentioned wetland is used, be fixed with back support rod and rear motor on the described hull, described back support rod upper end is fixed with back pulley, mudmat upper end, above-mentioned back is fixed with a back tightwire, and the described back tightwire other end is wound on the output shaft of rear motor by back pulley.

In the mud acquisition vessel that above-mentioned wetland is used, all be fixed with cystosepiment on mudmat lower face and the back mudmat lower face before described, the length of mudmat and back mudmat is all greater than the height of described hull before described, and the distance between the base plate of described front wheel and hull is all greater than the length of mudmat before described; Distance between the base plate of described back pulley and hull is all greater than the described length of mudmat afterwards.

In the mud acquisition vessel that above-mentioned wetland is used, described left elevation positioning structure is left cylinder, and the cylinder body of described left cylinder is fixed on the left erecting bed, the piston rod of described left cylinder straight up, and this piston rod and left lifter plate fix; Described right elevation positioning structure is right cylinder, and the cylinder body of described right cylinder is fixed on the right erecting bed, the piston rod of described right cylinder straight up, and this piston rod and right lifter plate fix.

In the mud acquisition vessel that above-mentioned wetland is used, described lobus sinister wheel comprises rounded left wheel disk and some outer lobus sinister sheets of left wheel disk that evenly is fixed on, and the cross-sectional plane of described lobus sinister sheet is S-type; Described lobus dexter wheel comprises rounded right wheel disk and some outer lobus dexter sheets of right wheel disk that evenly is fixed on, and the cross-sectional plane of described lobus dexter sheet is S-type.

In the mud acquisition vessel that above-mentioned wetland is used, described midbody is provided with axle drive shaft by the mode of axial restraint and circumferentially rotation, described axle drive shaft left end and right-hand member all pass hull, and described axle drive shaft left end is fixed with left quant, and described axle drive shaft right-hand member is fixed with right quant.

In the mud acquisition vessel that above-mentioned wetland is used, described axle drive shaft middle part is fixed with driven pulley, also be fixed with stepping motor in the described hull, be fixed with driving pulley on the output shaft of described stepping motor, described driving pulley is connected by belt with driven pulley.

In the mud acquisition vessel that above-mentioned wetland is used, the distance between the bottom surface of described inductor and storage bin is 1m to 1.5m.

In the mud acquisition vessel that above-mentioned wetland is used, the inwall of described storage bin is fixed with adapter plate along the vertical direction, offers several mounting holes on the described adapter plate successively, and above-mentioned inductor is by screw retention therein in mounting hole.

Compared with prior art, the invention has the beneficial effects as follows:

1, provide power owing to rotate to be hull by the drive motor impeller about hull, so this hull can navigate by water in wetland smooth and easy; Because left and right sides impeller can also cooperate quant together to use, thus this hull when in water, travelling power more abundant.

2, because lobus sinister wheel and lobus dexter wheel can up-down adjustment by left elevation positioning structure and left elevation positioning structure, can be when not needing to use with its rising and away from the water surface, so can avoid infringements such as it is collided.

3, increase preceding mudmat and back mudmat, improved the area of contact of hull and wetland, increased the buoyancy of hull, the safety that has improved the mud acquisition vessel.

4, by on the inwall of storage bin inductor being installed, when the mud acquisition vessel was carried out operation, whether the mud that just can predict in the storage bin was collected completely, and when collecting the mud of expiring in the storage bin, the excavating pump SELF CL stops to collect mud.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Fig. 2 is the structural representation of anti-sinking mechanism in running condition.

Fig. 3 is that anti-sinking mechanism is in the structural representation under the off working state.

Fig. 4 is the perspective view of traveling gear.

Fig. 5 is the front elevation of traveling gear.

Fig. 6 is the birds-eye view of traveling gear.

Fig. 7 is the structure enlarged drawing at D place among Fig. 4.

Fig. 8 is a structural representation of getting mud mechanism.

Among the figure, 1, hull; 1a, left erecting bed; 1b, right erecting bed; 1c, base plate; A, anti-sinking mechanism; B, traveling gear; C, get mud mechanism; 2, left lifter plate; 2a, left drive motor; 3, right lifter plate; 3a, right drive motor; 4, left elevation positioning structure; 4a, left cylinder; 5, right elevation positioning structure; 5a, right cylinder; 6, lobus sinister wheel; 6a, left wheel disk; 6b, lobus sinister sheet; 7, lobus dexter wheel; 7a, right wheel disk; 7b, lobus dexter sheet; 8, axle drive shaft; 8a, driven pulley; 8b, left quant; 8c, right quant; 9, stepping motor; 9a, driving pulley; 10, belt; 11, preceding mudmat; 12, back mudmat; 13, front support rod; 14, front motor; 15, front wheel; 16, preceding cable wire; 17, back support rod; 18, rear motor; 19, back pulley; 20, back tightwire; 21, cystosepiment; 22, excavating pump; 22a, input pipe; 22b, delivery pipe; 23, storage bin; 24, inductor; 25, PLC Programmable Logic Controller; 26, adapter plate.

The specific embodiment

Below be specific embodiments of the invention and in conjunction with the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiment.

Embodiment one

As shown in Figure 1, the mud acquisition vessel that a kind of wetland is used, comprise hull 1 with base plate 1c, described hull 1 is provided with and can drives the traveling gear B that hull 1 advances or retreats, and also is provided with on the described hull 1 mud in the wetland to be collected getting the C of mud mechanism and preventing the A of anti-sinking mechanism that hull 1 sinks in the hull 1.

As shown in Figures 2 and 3, mudmat 11 and back mudmat 12 before the A of anti-sinking mechanism comprises, mudmat 11 and back mudmat 12 all adopt wood materials to make before described, mudmat 11 lower ends are hinged on hull 1 front end before described, and the lower face of preceding mudmat 11 can be mutually concordant with the base plate 1c of described hull 1, mudmat 12 lower ends, described back are hinged on hull 1 rear end, and the lower face of back mudmat 12 can be mutually concordant with the base plate 1c of described hull 1, and described preceding mudmat 11 upper ends and mudmat 12 upper ends, back all detachably are positioned on the hull 1.

On hull 1, be fixed with front support rod 13 and front motor 14, described front support rod 13 upper ends are fixed with front wheel 15, mudmat 11 upper ends are fixed with a preceding cable wire 16 before above-mentioned, and described preceding cable wire 16 other ends are wound on the output shaft of front motor 14 by front wheel 15; Be fixed with back support rod 17 and rear motor 18 on the described hull 1, described back support rod 17 upper ends are fixed with back pulley 19, mudmat 12 upper ends, above-mentioned back are fixed with a back tightwire 20, and described back tightwire 20 other ends are wound on the output shaft of rear motor 18 by back pulley 19.

All be fixed with cystosepiment 21 on preceding mudmat 11 lower faces and back mudmat 12 lower faces, before the length of mudmat 11 and back mudmat 12 all greater than the height of described hull 1, the width of preceding mudmat 11 and back mudmat 12 is greater than the width of the base plate 1c of hull 1, can improve the base plate 1c of hull 1 and the area of contact of wetland greatly like this, improve buoyancy.Distance between the base plate 1c of front wheel 15 and hull 1 is all greater than the length of mudmat 11 before described; Distance between the base plate 1c of described back pulley 19 and hull 1 is all greater than the described length of mudmat 12 afterwards.The groundwork principle of the A of anti-sinking mechanism is such, work by front motor 14 and rear motor 18, with preceding cable wire 16 and back tightwire 20 rolling-in or unclamp, thereby whether mudmat 11 and back mudmat 12 work before realizing, when current mudmat 11 and back mudmat 12 were in running order, mudmat 11 and back mudmat 12 also contacted with wetland before this moment, have equaled to improve the area of contact of hull 1 with wetland, increase the buoyancy of hull 1, improved the safety of mud acquisition vessel; Simultaneously, be fixed on the cystosepiment 21 on preceding mudmat 11 and the back mudmat 12, also can improve the buoyancy of hull 1.

As Fig. 4, Fig. 5, Fig. 6 and shown in Figure 7, traveling gear B comprises left erecting bed 1a and right erecting bed 1b, and left erecting bed 1a is fixed on hull 1 exterior left side, and right erecting bed 1b is fixed on hull 1 exterior right side, both are symmetrical arranged, the balance that keeps hull 1 to advance.Erecting bed 1a top, a left side is provided with left lifter plate 2, right erecting bed 1b top is provided with right lifter plate 3, be provided with left elevation positioning structure 4 between left side erecting bed 1a and the left lifter plate 2, this left side elevation positioning structure 4 can drive left lifter plate 2 oscilaltions and left lifter plate 2 location are lived; Be provided with right elevation positioning structure 5 between right erecting bed 1b and the right lifter plate 3, this right side elevation positioning structure 5 can drive right lifter plate 3 oscilaltions and right lifter plate 3 location are lived.Be fixed with left drive motor 2a on the lifter plate 2 of a left side, be fixed with lobus sinister wheel 6 on the output shaft of left drive motor 2a; Be fixed with right drive motor 3a on the right lifter plate 3, be fixed with lobus dexter wheel 7 on the output shaft of right drive motor 3a.Hull 1 enters wetland when being difficult to move ahead, by about two lifting detent mechanisms left lifter plate 2 is lowered to correct position with right lifter plate 3, fix then; The left drive motor 2a of left side lifter plate 2 and the right drive motor 3a on the right lifter plate 3 can drive lobus sinister wheel 6 and 7 rotations of lobus dexter wheel, and impeller can provide power for hull 1 moves ahead, and it is smooth and easy to make that hull 1 navigates by water in wetland.

Left side elevation positioning structure 4 is left cylinder 4a, and the cylinder body of left cylinder 4a is fixed on the left erecting bed 1a, the piston rod of left cylinder 4a straight up, and this piston rod and left lifter plate 2 fix; Right elevation positioning structure 5 is right cylinder 5a, and the cylinder body of right cylinder 5a is fixed on the right erecting bed 1b, the piston rod of right cylinder 5a straight up, and this piston rod and right lifter plate 3 fix.Left side cylinder 4a promotes left lifter plate 2 by piston rod and moves up and down, and right cylinder 5a promotes right lifter plate 3 by piston rod and moves up and down, and cylinder has auto-lock function simultaneously, is fixed when left lifter plate 2 is adjusted to correct position with right lifter plate 3.Lobus sinister wheel 6 comprises rounded left wheel disk 6a, on the outer peripheral face of left wheel disk 6a, evenly be fixed with lobus sinister sheet 6b, lobus dexter wheel 7 comprises rounded right wheel disk 7a, evenly is fixed with lobus dexter sheet 7b on the outer peripheral face of right wheel disk 7a, and the cross-sectional plane of lobus sinister sheet 6b and lobus dexter sheet 7b is all S-type.

Hull 1 middle part is provided with axle drive shaft 8, and these axle drive shaft 8 axial restraints circumferentially can rotate, and axle drive shaft 8 left ends and right-hand member all pass hull 1, and axle drive shaft 8 left ends are fixed with left quant 8b, and right-hand member is fixed with right quant 8c.Also be fixed with stepping motor 9 in the hull 1, be fixed with driving pulley 9a on the output shaft of stepping motor 9, axle drive shaft 8 middle parts are fixed with driven pulley 8a, driving pulley 9a is connected by belt 10 with driven pulley 8a, stepping motor 9 makes axle drive shaft 8 rotations by belt 10 transmissions, axle drive shaft 8 drives left quant 8b and right quant 8c moves ahead hull 1, and cooperation lobus sinister that can be in good time wheel 6 and lobus dexter wheel 7, and power is abundant.

As shown in Figure 7, get the C of mud mechanism and comprise excavating pump 22 and the storage bin 23 that is fixed on the hull 1, excavating pump 22 has input pipe 22a and delivery pipe 22b, the input pipe 22a of excavating pump 22 can reach in the mud and go, the delivery pipe 22b of excavating pump 22 is connected with described storage bin 23, on the inwall of storage bin 23, be fixed with inductor 24, also be fixed with PLC Programmable Logic Controller 25 on the outer wall of storage bin 23, described inductor 24 links to each other with PLC Programmable Logic Controller 25 with circuit two by circuit one respectively with excavating pump 22.Distance between the bottom surface of described inductor 24 and storage bin 23 is 1m to 1.5m, and in present embodiment one, the distance between the bottom surface of inductor 24 and storage bin 23 is 1m; The inwall of storage bin 23 is fixed with adapter plate 26 along the vertical direction, offers several mounting holes successively on the described adapter plate 26, and inductor 24 is by screw retention therein in mounting hole.By inductor 24 is installed on the inwall of storage bin 23, when the mud acquisition vessel is carried out operation, just can predict mud in the storage bin 23 and whether collect fullly, when collecting the mud of expiring in the storage bin 23, excavating pump 22 SELF CL stop to collect mud.

Embodiment two:

Content in the present embodiment two is roughly identical with content among the embodiment one, difference is that left elevation positioning structure 4 is left push-rod electric machine in the present embodiment two, left side push-rod electric machine is fixed on the left erecting bed 1a, the push rod of left push-rod electric machine straight up, and this push rod and left lifter plate 2 fix; Right elevation positioning structure 5 is right push-rod electric machine, and right push-rod electric machine is fixed on the right erecting bed 1b, the push rod of right push-rod electric machine straight up, and this push rod and right lifter plate 3 fix.

Specific embodiment described herein only is that spirit of the present invention is made casehistory.The technical personnel of the technical field of the invention can be made various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Although this paper has used 1, hull morely; 1a, left erecting bed; 1b, right erecting bed; 1c, base plate; A, anti-sinking mechanism; B, traveling gear; C, get mud mechanism; 2, left lifter plate; 2a, left drive motor; 3, right lifter plate; 3a, right drive motor; 4, left elevation positioning structure; 4a, left cylinder; 5, right elevation positioning structure; 5a, right cylinder; 6, lobus sinister wheel; 6a, left wheel disk; 6b, lobus sinister sheet; 7, lobus dexter wheel; 7a, right wheel disk; 7b, lobus dexter sheet; 8, axle drive shaft; 8a, driven pulley; 8b, left quant; 8c, right quant; 9, stepping motor; 9a, driving pulley; 10, belt; 11, preceding mudmat; 12, back mudmat; 13, front support rod; 14, front motor; 15, front wheel; 16, preceding cable wire; 17, back support rod; 18, rear motor; 19, back pulley; 20, back tightwire; 21, cystosepiment; 22, excavating pump; 22a, input pipe; 22b, delivery pipe; 23, storage bin; 24, inductor; 25, PLC Programmable Logic Controller; 26, term such as adapter plate, but do not get rid of the possibility of using other term.Using these terms only is in order to describe and explain essence of the present invention more easily; They are construed to any additional restriction all is contrary with spirit of the present invention.

Claims (10)

1. mud acquisition vessel that wetland is used, comprise the have base plate hull (1) of (1c), it is characterized in that, described hull (1) is provided with and can drives the traveling gear (B) that hull (1) advances or retreats, also be provided with on the described hull (1) and the mud in the wetland can be collected getting mud mechanism (C) and preventing the anti-sinking mechanism (A) that hull (1) sinks in the hull (1), described anti-sinking mechanism (A) comprises preceding mudmat (11) and back mudmat (12), mudmat (11) and back mudmat (12) all adopt wood materials to make before described, mudmat (11) lower end is hinged on hull (1) front end before described, and the lower face of preceding mudmat (11) can be mutually concordant with the base plate (1c) of described hull (1), mudmat (12) lower end, described back is hinged on hull (1) rear end, and the lower face of back mudmat (12) can be mutually concordant with the base plate (1c) of described hull (1), and described preceding mudmat (11) upper end and back mudmat (12) upper end all detachably are positioned on the hull (1); Described traveling gear (B) comprises left erecting bed (1a) and the right erecting bed (1b) that is fixed on hull (1) both sides external, described left erecting bed (1a) top is provided with left lifter plate (2), be provided with the left elevation positioning structure (4) that can drive (2) oscilaltion of left lifter plate and left lifter plate (2) location is lived between described left erecting bed (1a) and the left lifter plate (2), be fixed with left drive motor (2a) on the described left lifter plate (2), be fixed with lobus sinister wheel (6) on the output shaft of described left drive motor (2a); Described right erecting bed (1b) top is provided with right lifter plate (3), be provided with the right elevation positioning structure (5) that can drive (3) oscilaltion of right lifter plate and right lifter plate (3) location is lived between described right erecting bed (1b) and the right lifter plate (3), be fixed with right drive motor (3a) on the described right lifter plate (3), be fixed with lobus dexter wheel (7) on the output shaft of described right drive motor (3a); The described mud mechanism (C) of getting comprises excavating pump (22) and the storage bin (23) that is fixed on the hull (1), the delivery pipe (22b) of described excavating pump (22) is connected with described storage bin (23), be fixed with inductor (24) on the inwall of described storage bin (23), also be fixed with PLC Programmable Logic Controller (25) on the outer wall of described storage bin (23), described inductor (24) links to each other with PLC Programmable Logic Controller (25) with circuit two by circuit one respectively with excavating pump (22).

2. the mud acquisition vessel that wetland according to claim 1 is used, it is characterized in that, be fixed with front support rod (13) and front motor (14) on the described hull (1), described front support rod (13) upper end is fixed with front wheel (15), mudmat (11) upper end is fixed with a preceding cable wire (16) before above-mentioned, and described preceding cable wire (16) other end is wound on the output shaft of front motor (14) by front wheel (15).

3. the mud acquisition vessel that wetland according to claim 2 is used, it is characterized in that, be fixed with back support rod (17) and rear motor (18) on the described hull (1), described back support rod (17) upper end is fixed with back pulley (19), above-mentioned back mudmat (12) upper end is fixed with a back tightwire (20), and described back tightwire (20) other end is wound on the output shaft of rear motor (18) by back pulley (19).

4. the mud acquisition vessel that wetland according to claim 3 is used, it is characterized in that, all be fixed with cystosepiment (21) on mudmat (11) lower face and back mudmat (12) lower face before described, the length of mudmat (11) and back mudmat (12) is all greater than the height of described hull (1) before described, and the distance between the base plate (1c) of described front wheel (15) and hull (1) is all greater than the length of described preceding mudmat (11); Distance between the base plate (1c) of described back pulley (19) and hull (1) is all greater than the described length of mudmat (12) afterwards.

5. the mud acquisition vessel of using according to claim 1 or 2 or 3 described wetlands, it is characterized in that, described left elevation positioning structure (4) is left cylinder (4a), the cylinder body of described left cylinder (4a) is fixed on the left erecting bed (1a), the piston rod of described left cylinder (4a) straight up, and this piston rod and left lifter plate (2) fix; Described right elevation positioning structure (5) is right cylinder (5a), and the cylinder body of described right cylinder (5a) is fixed on the right erecting bed (1b), the piston rod of described right cylinder (5a) straight up, and this piston rod and right lifter plate (3) fix.

6. the mud acquisition vessel of using according to claim 1 or 2 or 3 described wetlands, it is characterized in that, described lobus sinister wheel (6) comprises rounded left wheel disk (6a) and some outer lobus sinister sheets (6b) of left wheel disk (6a) that evenly is fixed on, and the cross-sectional plane of described lobus sinister sheet (6b) is S-type; Described lobus dexter wheel (7) comprises rounded right wheel disk (7a) and some outer lobus dexter sheets (7b) of right wheel disk (7a) that evenly is fixed on, and the cross-sectional plane of described lobus dexter sheet (7b) is S-type.

7. the mud acquisition vessel of using according to claim 1 or 2 or 3 described wetlands, it is characterized in that, described hull (1) middle part is provided with axle drive shaft (8) by the mode of axial restraint and circumferentially rotation, described axle drive shaft (8) left end and right-hand member all pass hull (1), described axle drive shaft (8) left end is fixed with left quant (8b), and described axle drive shaft (8) right-hand member is fixed with right quant (8c).

8. the mud acquisition vessel that wetland according to claim 7 is used, it is characterized in that, described axle drive shaft (8) middle part is fixed with driven pulley (8a), also be fixed with stepping motor (9) in the described hull (1), be fixed with driving pulley (9a) on the output shaft of described stepping motor (9), described driving pulley (9a) is connected by belt (10) with driven pulley (8a).

9. the mud acquisition vessel of using according to claim 1 or 2 or 3 described wetlands is characterized in that the distance between the bottom surface of described inductor (24) and storage bin (23) is 1m to 1.5m.

10. the mud acquisition vessel that wetland according to claim 9 is used, it is characterized in that, the inwall of described storage bin (23) is fixed with adapter plate (26) along the vertical direction, described adapter plate offers several mounting holes on (26) successively, and above-mentioned inductor (24) is by screw retention therein in mounting hole.

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