CN111021322A

CN111021322A - River course clean system

Info

Publication number: CN111021322A
Application number: CN201911261396.4A
Authority: CN
Inventors: 王宏炼; 章文军; 赵静静; 黄紫阳
Original assignee: Chengtong Kaisheng Ecological Construction Co ltd
Current assignee: Chengtong Kaisheng Ecological Construction Co ltd
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-04-17
Anticipated expiration: 2039-12-10
Also published as: CN111021322B

Abstract

The invention relates to a river channel purification system which comprises a ship body sailing on the water surface, wherein collecting plates are arranged on the ship body side by side, the two collecting plates extend along the advancing direction of the ship body, connecting plates are arranged at the lower ends of the two collecting plates, a collecting tank is defined by the two collecting plates and the connecting plates, the collecting tank penetrates through the ship body along the advancing direction of the ship body, a filter plate is arranged at the rear end of the ship body and fixedly connected with the end parts of the collecting plates and the connecting plates, when the ship body sails on the water surface, the connecting plates are immersed in the water, and the upper ends of the collecting plates and the filter plates extend out of. The invention has the advantages that when pollutants float in the middle of a river channel, the ship body is started and moves forward along the river channel, in the process of moving forward, the advancing direction of the ship body is continuously adjusted to enable the collecting tank to be aligned with the pollutants, the pollutants enter the collecting tank along with water flow, the water flow smoothly passes through the filter screen, the pollutants are stopped in the collecting tank by the blockage of the filter screen, and the effect of collecting the pollutants floating in the middle of the river channel is achieved.

Description

River course clean system

Technical Field

The invention relates to the technical field of ecological reconstruction engineering, in particular to a river channel purification system.

Background

In recent years, urban domestic sewage is effectively controlled, but the problem of water surface pollution phenomena is highlighted, wherein the water surface pollution phenomena refer to domestic garbage floating on the water surface, excessive breeding phytoplankton and the like.

The existing Chinese patent with publication number CN109487766A discloses a purification type river channel grid, which comprises a grid consisting of a plurality of transverse plates and a plurality of vertical plates, wherein each transverse plate is provided with rake teeth on the upper end surface, the top ends of the rake teeth are flush with the upper end surfaces of the vertical plates, each transverse plate is provided with a plurality of overflow ports arranged at intervals, and the overflow ports are communicated with the lower surfaces of the transverse plates.

When the tide rises, the water flow is hidden by the grid, the water flow is mixed with floating pollutants on the edge of the river channel to flush the bank, and the floating pollutants are filtered and separated by the rake teeth on the transverse plate after the tide falls, so that the aim of purifying the river channel is fulfilled.

The above prior art solutions have the following drawbacks: the floating pollutants in the middle of the river channel cannot be washed to the shore, and the floating pollutants in the middle of the river channel cannot be effectively cleaned by the grid.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a river channel purification system, wherein when pollutants float in the middle of a river channel, a ship body is started and moves forward along the river channel, in the process of moving forward, the advancing direction of the ship body is continuously adjusted to enable a collecting tank to be aligned with the pollutants, the pollutants enter the collecting tank along with water flow, the water flow smoothly passes through a filter screen, the pollutants are blocked by the filter screen and are stagnated in the collecting tank, and the collection of the pollutants floating in the middle of the river channel is completed.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a river course clean system, is including navigating in the hull on the surface of water, be equipped with the collecting board on the hull side by side, two the collecting board extends along the direction of advance of hull, two the lower extreme of collecting board is equipped with the connecting plate, two collecting board, connecting plate enclose into the collecting vat, just the collecting vat runs through the hull along the direction of advance of hull, the rear end of hull is equipped with the filter plate, the filter plate links firmly the tip of collecting board, connecting plate, when the hull navigates on the surface of water, the connecting plate submergence is in the aquatic, the surface of water is stretched out to the upper end of collecting board, filter plate.

Through adopting above-mentioned technical scheme, when the river course middle part floated there was the pollutant, started the hull and advanced along the river course, the in-process that gos forward, and the direction of advance that lasts the adjustment hull makes the collecting vat aim at the pollutant, and in the pollutant entered into the collecting vat along with the rivers, rivers passed through the filter screen smoothly, and the pollutant received stopping of filter screen in the collecting vat, the completion was to the collection of the floating pollutant in the middle part of the river course.

The present invention in a preferred example may be further configured to: the front end of the ship body and the end parts of the two collecting plates are provided with flow guide pieces, the projections of the flow guide pieces on the horizontal plane are V-shaped, the openings of the flow guide pieces deviate from the ship body, and when the ship body sails on the water surface, the upper ends of the flow guide pieces stretch out of the water surface.

By adopting the technical scheme, the water flow and the pollutants are guided into the collecting tank by the flow guide piece, so that the swept area of the ship body during navigation is increased, and the pollutant collecting efficiency is improved.

The present invention in a preferred example may be further configured to: the water conservancy diversion spare floats on the surface of water, the front end of hull is equipped with the guide rail, the vertical setting of guide rail, the water conservancy diversion spare slides along vertical direction and cup joints on the guide rail, the front end of hull and the both ends that are located the guide rail all are equipped with the locating part, the locating part is used for butt water conservancy diversion spare.

Through adopting above-mentioned technical scheme, the hull navigation in-process, personnel, equipment configuration are inconsistent, and the hull load is different promptly, will lead to the hull draft different, and this moment, water conservancy diversion spare reciprocates along the guide rail, guarantees that water conservancy diversion spare floats on the surface of water, avoids water conservancy diversion spare submergence to aquatic, or breaks away from the surface of water, guarantees the flow of water conservancy diversion spare butt, direction pollutant for the pollutant gets into the collecting vat.

The present invention in a preferred example may be further configured to: two the tip that the hull was kept away from to water conservancy diversion piece all is equipped with stirs water installation, and it includes rim plate, blade and drive assembly, drive assembly is used for driving the rim plate and rotates, just the vertical setting of rim plate axis of rotation, it is a plurality of on the rim plate is located to blade circumference interval, when the hull sailed on the surface of water, the surface of water is stretched out to the upper end of blade.

Through adopting above-mentioned technical scheme, it has artifical facility to be equipped with on the river course often, if: pier, dam etc. artifical facility and river course coastal probably form the rivers dead angle, and the pollutant is piled up often in dead angle department, and the hull sails by water to when here, starts the water stirring device of water conservancy diversion spare front end, and the blade rotates and stirs rivers to make rivers flow to the collecting vat direction, make the pollutant of dead angle department remove in to the collecting vat, realize collecting the pollutant of dead angle department.

The present invention in a preferred example may be further configured to: the end part of the diversion piece far away from the ship body is provided with mounting rods side by side, the two mounting rods are horizontally arranged and are in the same vertical plane, a mounting groove for mounting a water stirring device is formed between the two mounting rods, the wheel disc is barrel-shaped, the water stirring device comprises a bottom plate, a side wall, a connecting ring and a water stirring device, wherein the wheel disc is rotatably arranged on the upward side wall of the mounting rod below the wheel disc, the axis of the connecting ring is vertically arranged, the connecting ring is rotatably arranged on the side wall of the mounting rod above the connecting ring, the axis of the connecting ring is not coincident with the axis of the wheel disc, and the axes of the connecting rings in the two water stirring devices are positioned between the axes of the two wheel discs, one end of each blade close to the axis of the wheel disc is hinged on the connecting ring, and the blades rotate around the hinged parts of the blades in the horizontal plane, and the side walls are provided with limiting holes for the blades to pass through.

Through adopting above-mentioned technical scheme, stir water installation during operation, the rivers of two water conservancy diversion spare mutually opposite one side need not to mix, therefore locate between the axis of two rim plates with the axis of two go-between, the rim plate drives the blade and rotates, and drive the go-between and rotate, when making the blade rotate to two rim plates mutually opposite one side, the blade contracts to in the rim plate and does not promote rivers, the blade continues to rotate the in-process along with the rim plate, the blade stretches the side wall of rim plate gradually, it stirs rivers, the realization reduces to stir water installation in the contact area of two water conservancy diversion spare mutually opposite one side and rivers, be favorable to reducing the energy consumption of stirring water installation.

The present invention in a preferred example may be further configured to: the end part of the lower end of the connecting ring is coaxially provided with a limiting groove, the end part of the blade extends along the vertical direction to form a limiting shaft, the limiting shaft is embedded in the limiting groove in a sliding mode, the bottom plate is provided with a sliding groove, the sliding groove extends along the radial direction of the bottom plate, and the lower end of the blade is embedded in the sliding groove in a sliding mode.

Through adopting above-mentioned technical scheme, guarantee that the blade is along the radial setting of rim plate, the rim plate drives the blade and rotates around self axis, avoids blade self to rotate around spacing axle.

The present invention in a preferred example may be further configured to: and a lubricating piece is arranged at the position of the limiting hole and between the side wall and the blade.

Through adopting above-mentioned technical scheme, reduce the frictional force of blade and spacing hole lateral wall, be favorable to reducing the energy consumption of stirring water installation.

The present invention in a preferred example may be further configured to: the lower end of the mounting rod positioned above the mounting rod is provided with a limiting shaft, and the connecting ring is coaxially sleeved on the limiting shaft in a rotating mode.

Through adopting above-mentioned technical scheme, spacing axle is used for injecing the position of go-between, guarantees that the axis of go-between and rim plate is not coincident, when stirring water installation and rotating, realizes that the blade is radially flexible along the rim plate.

The present invention in a preferred example may be further configured to: the one end of rim plate is coaxial to be equipped with the drive shaft, the drive shaft stretches into to the water conservancy diversion in, water conservancy diversion spare cavity sets up, drive assembly includes motor, vertical integral key shaft and the belt drive mechanism of locating guide rail one side, the middle wheel has been cup jointed in the slip on the integral key shaft, the middle wheel passes through the belt drive mechanism and connects the drive shaft, the motor is located on the hull to be used for driving the integral key shaft to rotate.

Through adopting above-mentioned technical scheme, the motor is located on the hull, avoids the motor to work under water for a long time, and the maintenance of the motor of being convenient for avoids laying wire on gliding water conservancy diversion spare simultaneously.

In summary, the invention includes at least one of the following beneficial technical effects:

starting the ship body and advancing along the river channel, continuously adjusting the advancing direction of the ship body to enable the collecting tank to be aligned with pollutants, enabling the pollutants to enter the collecting tank along with water flow, enabling the water flow to smoothly pass through the filter screen, enabling the pollutants to be blocked by the filter screen and to be stagnated in the collecting tank, and completing the collection of floating pollutants in the river channel;

the water flow and pollutants are guided into the collecting tank by the flow guide piece, so that the swept area of the ship body during navigation is increased, and the pollutant collecting efficiency is improved;

the axis of go-between and rim plate is not coincident, stirs when water installation rotates, realizes that the blade is flexible along the radial periodicity of rim plate, reduces to stir water installation and at the area of contact of two water conservancy diversion spare one side of the back of the body mutually with rivers, is favorable to reducing the energy consumption of stirring water installation.

Drawings

Fig. 1 is a schematic view of the overall structure.

Fig. 2 is a schematic view of the structure of the flow guide member.

Fig. 3 is a schematic structural view of the water stirring device.

FIG. 4 is a schematic view of the connection structure of the disk, the blades and the connection ring.

Fig. 5 is a schematic view of the construction of the wheel disc.

FIG. 6 is a schematic view of a connection structure of the disk and the blade.

In the figure, 1, a ship body; 11. collecting tank; 12. a collection plate; 13. a connecting plate; 14. filtering the plate; 15. a guide rail; 16. a limiting member; 2. a flow guide member; 21. mounting a rod; 22. a limiting shaft; 3. a water stirring device; 31. a motor; 32. a transmission assembly; 321. an intermediate shaft; 322. a belt drive mechanism; 3221. an intermediate wheel; 3222. a belt; 3223. a pulley; 33. a wheel disc; 331. a drive shaft; 332. a base plate; 3321. a chute; 334. side walls; 3341. a limiting hole; 34. a blade; 341. hinging a shaft; 35. an isolation cover; 36. a connecting ring; 361. a limiting groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the river purification system disclosed by the invention comprises a ship body 1 sailing on the water surface, a collecting tank 11 is arranged on the ship body 1, the collecting tank 11 is enclosed by two collecting plates 12 arranged side by side and a connecting plate 13 positioned at the lower ends of the collecting plates 12, the collecting plates 12 are parallel to the advancing direction of the ship body 1 and are vertically arranged, the collecting tank 11 penetrates through the ship body 1 along the advancing direction of the ship body 1, flow guide pieces 2 are respectively arranged at the front end of the ship body 1 and at two sides of the horizontal direction of the collecting tank 11, the end surfaces of the two opposite sides of the two flow guide pieces 2 are in a V shape, the opening deviates from the ship body 1, a filter plate 14 is arranged at one end of the collecting tank 11 far away from the flow guide pieces 2, and when the ship body 1 sail.

When the superficial pollutant on the clearance riverway water face, start hull 1 and advance along the river course, hull 1 advances the in-process, continuously adjust the direction of advance of hull 1 for the V-arrangement opening of two water conservancy diversion pieces 2 is just to floating the pollutant, in floating the pollutant along water conservancy diversion piece 2 entering collection along the rivers, the flow passes through the filter screen smoothly, the pollutant receives stopping of filter screen in collecting vat 11, the completion is to the collection of the superficial pollutant in river course middle part, the follow-up centralized processing of being convenient for.

Referring to fig. 2 and 3, the hull 1 is further provided with a water stirring device 3, which includes a motor 31, a transmission assembly 32 and a wheel disc 33, the motor 31 is disposed on the hull 1, the power of the motor 31 is transmitted to the wheel disc 33 through the transmission assembly 32, the front end of the flow guide member 2 is provided with the installation rods 21 side by side, the two installation rods 21 are horizontally disposed and vertically arranged, the wheel disc 33 is rotatably disposed between the two installation rods 21, the rotation axis of the wheel disc 33 is vertically disposed, the wheel disc 33 is provided with six blades 34 at intervals along the circumferential direction thereof, and when the hull 1 sails, the upper ends of the blades 34 extend out of the water surface, the flow guide member 2 and the installation rods 21 are both hollow, the lower end of the wheel disc 33 coaxially extends to form a driving shaft 331, the driving shaft 331 extends downwards into the installation rods 21, the transmission assembly 32 includes an intermediate shaft 321 disposed at the front end of the hull 1 and two belt transmission mechanisms 322, the intermediate shaft, the motor 31 is arranged on the ship body 1, the ship body 1 is provided with an isolation cover 35 for covering the motor 31, the isolation cover 35 is used for protecting the motor 31, the upper end of the intermediate shaft 321 extends into the isolation cover 35, and the output shaft of the motor 31 and the intermediate shaft 321, and the intermediate shaft 321 and the driving shaft 331 are connected through a belt transmission mechanism 322.

The river course is often provided with artificial facilities, such as: pier, dam etc, artifical facility department easily forms the rivers dead angle, make showy pollutant pile up in dead angle department, hull 1 sails by water to here, start stirring water installation 3, motor 31 is through belt drive mechanism 322, jackshaft 321, belt drive mechanism 322, drive shaft 331 and rim plate 33, drive blade 34 rotates and then stirs rivers, and make rivers flow to collecting vat 11 direction, the showy pollutant of dead angle department removes along with water flow direction collecting vat 11, collect the accumulational showy pollutant of dead angle department.

Referring to fig. 4 and 5, the wheel disc 33 is a barrel shape and includes a bottom plate 332 and a side wall 334, and is rotatably disposed on the mounting rod 21 below through a driving shaft 331, the lower end of the mounting rod 21 above is provided with a limiting shaft 22, the water stirring device 3 further includes a connecting ring 36 rotatably sleeved on the limiting shaft 22, the axis of the connecting ring 36 is vertically disposed, the axis of the connecting ring 36 does not coincide with the axis of the wheel disc 33, the axis of the connecting ring 36 in the two water stirring devices 3 is located between the axes of the two wheel discs 33, the connecting ring 36 is located above the blades 34, the lower end of the connecting ring 36 is coaxially disposed with a limiting groove 361 at the end thereof, one end of the blades 34 facing the axis of the wheel disc 33 is provided with a hinge shaft 341, the upper end of the hinge shaft 341 is slidably embedded in the limiting groove 361, the bottom plate 332 is provided with a sliding groove 3321 extending along the radial, the side wall 334 is provided with a limit hole 3341 for the blade 34 to pass through, and the inner wall of the limit hole 3341 is provided with a lubricating piece which can be lubricated by graphite.

When the water stirring device 3 works, the motor 31 drives the wheel disc 33 to rotate, and further drives the blades 34 to rotate through the sliding groove 3321, meanwhile, the hinge shaft 341 on the vane 34 slides along the limiting groove 361, so that the vane 34 slides along the sliding slot 3321, periodically extends out of the side wall 334, and when the blades 34 rotate towards the opposite side close to the two wheel discs 33, the blades 34 slide along the sliding grooves 3321 towards the direction far away from the axes of the wheel discs 33, the blades 34 gradually extend out of the side walls 334 of the wheel discs 33, and agitates the water stream, causing the floating contaminants to flow in a direction adjacent the collection tank 11, the blades 34 continue to rotate, when the water stirring device rotates to one side of the two wheel discs 33 opposite to each other, the blades 34 are partially retracted into the wheel discs 33 without pushing water flow, the contact area between the blades 34 and the water flow is reduced, the contact area between the water stirring device 3 and the water flow on the side of the two diversion pieces 2 opposite to each other is reduced, and the reduction of the energy consumption of the water stirring device 3 is facilitated.

Referring to fig. 1 and 2, water conservancy diversion spare 2 floats on the surface of water, the front end of hull 1 is equipped with four guide rails 15, four vertical settings of guide rail 15 and two guide rails 15 are a set of, locate the both sides of collecting vat 11 respectively, water conservancy diversion spare 2 slides and cup joints in a set of guide rail 15, two relative lateral walls of water conservancy diversion spare 2 and the relative lateral wall alignment of collecting plate 12 are connected, avoid water conservancy diversion spare 2 lateral wall and hull 1 front end department to produce the dead angle and lead to floating the pollutant to be detained in the dead angle department, hull 1 navigation in-process, hull 1 body is different, its draft changes, at this moment, water conservancy diversion spare 2 reciprocates along guide rail 15, guarantee that water conservancy diversion spare 2 floats on the surface of water, avoid water conservancy diversion spare 2 submergence to aquatic, or break away from the surface of water, guarantee water conservancy diversion spare 2 butt.

Referring to fig. 2 and 3, the limiting parts 16 are disposed at two ends of the guide rail 15 on the hull 1, the limiting parts 16 are used for abutting against the diversion part 2, so as to prevent the diversion part 2 from being separated from the guide rail 15, splines are disposed on the peripheral sides of the intermediate shaft 321 to form a spline shaft, the two belt transmission mechanisms 322 include an intermediate wheel 3221, a belt 3222 and belt wheels 3223, the intermediate wheel 3221 is connected with the intermediate shaft 321 through the splines and is slidably sleeved on the intermediate shaft 321 along the vertical direction, one belt wheel 3223 is fixedly connected with the output shaft of the motor 31, and the other belt wheel 3223 is fixedly connected with the driving shaft 331, so that when the diversion part 2 slides along the guide rail 15, the transmission assembly.

The implementation principle of the embodiment is as follows: when floating pollutants on the water surface of a river channel are cleaned, the ship body 1 is started and moves forwards along the river channel, the advancing direction of the ship body 1 is continuously adjusted in the advancing process of the ship body 1, so that the V-shaped openings of the two flow guide pieces 2 are opposite to the floating pollutants, the floating pollutants enter a collection chamber along the flow guide pieces 2 along with water flow, the flow smoothly passes through the filter screen, the pollutants are blocked by the filter screen and are stopped in the collection tank 11, the collection of the floating pollutants in the middle of the river channel is completed, and the subsequent centralized treatment is facilitated; when meetting the river course dead angle among the clearance process, start stirring water installation 3, motor 31 drive blade 34 rotates and then stirs rivers to make rivers flow to collecting vat 11 direction, the showy pollutant of dead angle department removes along with water flow direction collecting vat 11, accomplishes the accumulational showy pollutant of collecting dead angle department.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a river course clean system which characterized in that: including hull (1) of navigating in the surface of water, be equipped with collection board (12) side by side on hull (1), two collection board (12) extend along the direction of advance of hull (1), two the lower extreme of collection board (12) is equipped with connecting plate (13), two collection board (12), connecting plate (13) enclose into collecting vat (11), just collecting vat (11) runs through hull (1) along the direction of advance of hull (1), the rear end of hull (1) is equipped with filter plate (14), filter plate (14) link firmly the tip of collection board (12), connecting plate (13), when hull (1) navigates in the surface of water, connecting plate (13) submergence in aqueous, the surface of water is stretched out to the upper end of collecting board (12), filter plate (14).

2. The river decontamination system of claim 1, wherein: the front end of hull (1) and the tip that is located two collecting plates (12) are equipped with water conservancy diversion spare (2), two the projection of water conservancy diversion spare (2) on the horizontal plane is the V-arrangement, and the opening deviates from hull (1), when hull (1) navigates by water on the surface of water, the surface of water is stretched out to the upper end of water conservancy diversion spare (2).

3. The river decontamination system of claim 2, wherein: the water conservancy diversion spare (2) float on the surface of water, the front end of hull (1) is equipped with guide rail (15), guide rail (15) vertical setting, water conservancy diversion spare (2) are followed vertical direction and are slided to cup joint on guide rail (15), the front end of hull (1) and the both ends that are located guide rail (15) all are equipped with locating part (16), locating part (16) are used for butt water conservancy diversion spare (2).

4. The river decontamination system of claim 2, wherein: two the tip that hull (1) was kept away from in water conservancy diversion spare (2) all is equipped with stirs water installation (3), and it includes rim plate (33), blade (34) and drive assembly, drive assembly is used for driving rim plate (33) and rotates, just the vertical setting of rim plate (33) axis of rotation, it is a plurality of on rim plate (33) is located to blade (34) circumference interval, hull (1) sails on the surface of water, the surface of water is stretched out to the upper end of blade (34).

5. The river decontamination system of claim 4, wherein: end that hull (1) was kept away from in water conservancy diversion spare (2) is equipped with installation pole (21), two side by side installation pole (21) level sets up and in same vertical plane, two form the mounting groove that is used for installing water stirring device (3) between installation pole (21), rim plate (33) are for being the tubbiness, and it includes bottom plate (332) and side wall (334), below is located in rim plate (33) rotation installation pole (21) is on the lateral wall up, water stirring device (3) still includes go-between (36), the vertical setting of axis of go-between (36), just go-between (36) rotate locate the top on the lateral wall down of installation pole (21), the axis of go-between (36) with the axis of rim plate (33) does not coincide, and two in water stirring device (3) the axis of go-between (36) is located the axis of two rim plates (33), one end, close to the axis of the wheel disc (33), of the blade (34) is hinged to the connecting ring (36), the blade (34) rotates around the hinged position in the horizontal plane, and the side wall (334) is provided with a limiting hole (3341) for the blade (34) to penetrate through.

6. The river decontamination system of claim 5, wherein: the coaxial spacing groove (361) that is equipped with of tip of go-between (36) lower extreme, the tip of blade (34) extends along vertical direction and has spacing axle (22), spacing axle (22) slide to inlay and locate in spacing groove (361), be equipped with spout (3321) on bottom plate (332), the radial extension of bottom plate (332) is followed in spout (3321) is followed in spout (3321) is slided to inlay to the lower extreme of blade (34).

7. The river decontamination system of claim 5, wherein: and a lubricating piece is arranged at the position of the limiting hole (3341) and between the side wall (334) and the blade (34).

8. The river decontamination system of claim 5, wherein: the lower end of the mounting rod (21) positioned above is provided with a limiting shaft (22), and the connecting ring (36) is coaxially sleeved on the limiting shaft (22) in a rotating mode.

9. The river decontamination system of claim 4, wherein: the one end of rim plate (33) is coaxial to be equipped with drive shaft (331), drive shaft (331) stretch into in water conservancy diversion spare (2), water conservancy diversion spare (2) cavity sets up, drive assembly includes motor (31), vertical integral key shaft and the belt drive mechanism (322) of locating guide rail (15) one side, slip on the integral key shaft and cup jointed intermediate wheel (3221), drive shaft (331) are connected through belt drive mechanism (322) in intermediate wheel (3221), motor (31) are located on hull (1) to be used for the drive integral key shaft to rotate.