CN108226025A - Marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device - Google Patents

Abstract

The invention discloses a kind of marine settings surface coating material antirust antifouling capacity dynamic simulation experimental devices, including a main shaft, the main shaft rotates under the driving of driving device, the main shaft drives two working shafts to rotate by two sets of revolution motion devices, realize circular motion of the test piece in salt water tank, simulation ship is in marine navigation；The main shaft simulates ship jolting in wave by two sets of reciprocator drivings working shaft pumping in salt water tank；The main shaft realizes rotation of the test piece in a wide range of process of revolution by two sets of spinning motion device drivings working shaft rotation, ensures the uniform force of test piece, increases test piece experiment area.

Description

Marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device

Technical field

The present invention relates to a kind of experiment simulator, more particularly to a kind of ship navigation process surface corrosion situation simulation Detect experimental rig.

Background technology

With the historical progress of human development, the increasingly failure of land resources, ocean has caused generally weighing for international community Depending on.However, with the development of recent decades world industry, the pollution of ocean is also on the rise, and local marine environment has occurred Great changes, and have the tendency that continuing to deteriorate.Marine environment of the ship due to being chronically at all kinds of complexity, easily corrodes, The rapidity and maneuverability of ship are not only influenced, its structural strength can also declined, seriously affects navigation safety.

Pollution From Ships are not only one of main Types of marine environmental pollution and the important pollution sources of greenhouse gas emission One of.In order to play certain effect for preventing marine corrosion, the coating overwhelming majority used on ship at present is organic painting Material.The organic solvent of the key component of coating is evaporate into during marine paint application in air, causes air dirt Dye.Country in shipping industry for gradually using energy-saving and emission-reduction and environmentally protective marine paint and implementing corresponding coating process It is very difficult and long-term target.Further carry out the research of ships anticorrosion erosion technology, be to carve for China's the present situation of the ocean Do not allow slow.

Marine corrosion is an extremely complex chemical phenomenon, show as corrosive environment is various, etch state is different, corrosion Reason is different.And often various corrosion can intersect.Such as the corrosion of hull certain, would generally be the common of several corrosion The result of effect, if individually corrosion phenomenon still cannot be solved using a kind of anti-corrosion measure.Nowadays to ships anticorrosion erosion Common method --- coating protection and cathodic protection, all remain the drawbacks of some are inevitable in vessel motion.Cause This, the corrosion regularity of steel construction structures under research marine environment, the new method and new technology of Development of Marine corrosion control, for It ensures that marine facility is safe, promotes circular economy, protect the marine environment, develops conservation-minded society to be of great significance.

The new method and new technology of Development of Marine corrosion control need to advise with the corrosion behavior of steel material in marine environment Rule and the accumulation of relevant corrosion data are foundation.And real sea experiment is a kind of reliable method, but the shortcomings that this method It is obvious.Field test needs a large amount of human and material resources, and heavy workload is not easy to observe and test at any time, the period compared with It is long.In addition, due to severe ocean condition, sample is easily lost also causes difficulty or even failure to work.

There are still deficiencies for current research present situation：

1. the marine corrosion simulated experimental provision of water circulation type

In order to realize that the tidal range of seawater changes, pipeline connects two containers for holding seawater to realize seawater circulation.In mould Intend generally use siphon principle in experimental rig and realize tide bulge and fall：In test by adjusting water inlet valve, to container Middle constant-current water injection, when liquid level reaches specified liquid level, seawater will pass through siphon pipe and be automatically drained out；By the valve for adjusting siphon pipe Door, when making displacement more than water injection rate, the page is begun to decline, and when liquid level is down to siphon bottom of the tube, draining is automatically stopped, liquid level Bottom out.But this structure occupied space is larger, pipe-line is longer, and makes an uproar in water cycle process along with larger There are larger drawbacks for sound, measurement accuracy and device stability.

2. the marine corrosion simulated experimental provision of baking box type

The marine corrosion simulated experimental provision of baking box type belongs to environmental suitability detection field, including elevating mechanism, stent, baking Heat lamp, climatic chamber, soaking box, micro-control panel；In the stent that is internally provided with of climatic chamber, the support examination of upper horizontal stent Sample pendant, tumbler are installed on above sample hanger, and test specimen is hung on by steel wire rope on sample pendant, and motor drives rotation dress It puts, the test specimen that tumbler control is fixed on sample hanger is immersed in solution and is promoted into air, on lower horizontal stent Soaking box is placed with, drying lamp is installed on the medium position of vertical rack；It is controlled in a manner that micro-control panel uses microcirculation The temperature and relative humidity of air in babinet, simulated seawater splashes by the way of alternating impregnating, it is ensured that test specimen is dried equal Even property avoids the evaporation loss of test solution caused by forcing air-flow.But the marine corrosion simulated verifying attachment pair of baking box type Environmental requirement is higher, it is desirable that is fully sealed, constant temperature and humidity is only used for laboratory environment, is not useable for real sea simulation.

3. the marine corrosion simulated experimental provision of directly-heated type

The marine corrosion simulated device of directly-heated type carries out the certain local heatings of device to keep water temperature by direct heat source Analogue experiment installation.Most directly-heated formula devices are by setting having heaters and temperature sensor, and heater in chamber bottom It is electrically connected through temperature sensor with the temperature controller outside chamber, the practical temperature of experiment seawater can be measured using temperature sensor Degree judges finally whether determining heater needs to heat, to test compared with set temperature, and by temperature controller Ocean temperature control is in the degree close with practical ocean temperature, compared with the practical ocean temperature of real simulation, so as to simulate ocean ring Border temperature.But the shortcomings that directly-heated type is kept the temperature is also fairly obvious, when can realize accurate constant temperature in smaller waters, but It can lead to local water temperature overheat or excessively cool in larger waters, accurately constant water temperature can not simulate true ocean temperature, from And substantially reduce experimental precision.

4. the marine corrosion simulated experimental provision of impeller rotation-type

The marine corrosion simulated experimental provision of impeller rotation-type is patted test(ing) medium using the rotation of marginal belt tingia impeller blade and is produced The raw spray simultaneously stirs liquid motion, by the comprehensive adjustment of liquid level, blade rotational speed, specimen holder height in corrosion test chamber, realizes Three kinds of splash zone, Tidal zone, submerged zone corrosion area environment are simulated simultaneously.Such marine corrosion simulated experimental provision can Effectively accelerate marine corrosion process, improve conventional efficient, but this apparatus structure moves single, the reduction degree of ocean true environment It is low, it is relatively low so as to the experimental data confidence level of gained.

Invention content

To solve problem above, this project has developed a kind of ship navigation process surface corrosion situation analog detection experiment Device, this device can realize circular motion of the test piece in salt water tank, spinning motion and pump.During work, keep One segment length of upper end of test piece is not immersed in seawater, while one segment length of lower end is soaked in the seawater entirely always, is moved through entirely always Due to the fluctuation of seawater and the splashing of the spray in journey, corrosion condition most serious in marine ship corrosion can be more actually simulated Three areas：Tidal zone, splash zone and submerged zone, and the detection for passing through sensor obtains the instant situation of test piece corrosion.

In order to achieve the above objectives, technical scheme is as follows：

A kind of marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device, it is described including a main shaft Main shaft rotates under the driving of driving device, and the main shaft drives two working shafts to rotate by two sets of revolution motion devices, Realize circular motion of the test piece in salt water tank, simulation ship is in marine navigation；The main shaft passes through two sets of reciprocating motions Device driving working shaft the pumping in salt water tank, simulates ship jolting in wave；The master Axis by two sets of spinning motion devices driving working shaft rotation, and then realize test piece in a wide range of process of revolution from Turn, ensure the uniform force of test piece, increase test piece experiment area；In the test piece be equipped with sensor, by sensor come Detection obtains the instant situation of test piece corrosion.

Further, there are one locating piece, the locating piece is in including one for the centre position installation of the main shaft Cross installation and the positioning plate I and the both ends installation revolution motion dress of positioning plate II, the positioning plate I being fixed together It puts, the both ends of positioning plate II respectively install one for setting the working shaft of test piece；The revolution motion device realizes working shaft Revolution, the reciprocator realize working shaft pumping relative to locating piece.

Further, two sets of revolution motion devices include a driving gear being mounted on main shaft, the master The two driven gear I rotations of moving teeth wheel drive, two driven gears are respectively mounted on a hollow shaft respectively, two hollow shafts The both ends of positioning plate I are separately mounted to, and a driven pulley I, two I points of driven pulleys are each provided on two hollow shafts Band connection is not passed through with two driving pulley I on main shaft.

Further, the hollow shaft described in two is symmetrical relative to main shaft.

Further, the driving pulley I described in two is arranged up and down on main shaft.

Further, two sets of reciprocators include two driven pulleys for being mounted on positioning plate II tops II, the driven pulley II described in two pass through band connection with two driving pulley II on main shaft respectively；Described One is fixed at the top of driven pulley II and is eccentrically rotated part, the part that is eccentrically rotated drives connecting rod I rotations, the connecting rod I A sliding block horizontal linear is driven, the sliding block is connected with connecting rod II, and the connecting rod II is driven above and below the working shaft It moves back and forth.

Further, the driven pulley II described in two is symmetrical arranged relative to main shaft.

Further, the driving pulley I described in two is arranged up and down on main shaft.

Further, two sets of spinning motion devices include two driven pulleys being separately mounted on working shaft III, the driven pulley III described in two pass through band connection with two driving pulley III on main shaft respectively；It is and then real Now connect the rotation of a working shaft.

Further, the working shaft described in two is symmetrical arranged relative to the main shaft.

The operation principle of the present invention is as follows：

It circular motion of the test piece in salt water tank, spinning motion and pumps, while movement, keeps test piece One segment length of upper end is not immersed in seawater entirely always, while one segment length of lower end is soaked in the seawater entirely always, in motion process by In the fluctuation of seawater and the splashing of the spray, three of ship corrosion condition most serious in the seawater can be more actually simulated Area：Tidal zone, splash zone and submerged zone, and detect the instant feelings for obtaining test piece and corroding by setting sensor in test piece Condition.Apparatus function synthetic marine environmental simulation disclosed in this invention is detected on one, using separable non-Unitary mechanism, Available for kinds of experiments places such as laboratory, real seas.

Beneficial effects of the present invention：

1st, motion process of the ship in ocean is complex, existing marine environment analogue experiment installation simulation Motion process is excessively single, it is impossible to accurate simulation ship motion process, the movement of this product various dimensions are combined with each other, experiment it is accurate Degree is high, highly reliable.

2nd, each mechanism of existing apparatus is dipped in water more, into branch to corruption caused by the corrosion of mechanism in the seawater in itself Erosion monitoring generates interference, reduces experimental precision, and the corrosion of mechanism in the seawater can substantially reduce equipment life, this product is main More than the water surface, only test piece part is dipped in water for mechanism, improves the durability of experiment accuracy and equipment.

3rd, existing apparatus is complicated, and flexibility ratio is poor, requires experimental place height, and this product is designed using the formula of split, Available for laboratory, the really kinds of experiments place such as ocean.

4th, existing apparatus is mostly designed using water circulation type, multiple babinets such as inlet water tank and water tank is needed to be used cooperatively, volume Huge, this product makes wave using the relative motion of test piece, without water circulation system, has not only avoided the waste of water, but also greatly reduce Device volume, while ensure that the stability of device.

Description of the drawings

It, below will be to embodiment or existing in order to illustrate more clearly of present example or technical solution of the prior art Attached drawing is briefly described needed in technology description.

Fig. 1 is the stereogram of the marine environment simulation test device disclosed in the embodiment of the present invention；

Fig. 2 is the main body figure of the marine environment simulation test device disclosed in the embodiment of the present invention；

Fig. 3 is the vertical view of the marine environment simulation test device disclosed in the embodiment of the present invention；

Fig. 4 is the left view of the marine environment simulation test device disclosed in the embodiment of the present invention；

Fig. 5 is revolution motion device, the autobiography of the marine environment simulation test device disclosed in the embodiment of the present invention The vertical view of telecontrol equipment part；

In figure, 1 is main shaft；2 be thrust bearing；3-1,3-2 are main supporting plate；4-1,4-2 are taper roll bearing；5 are Eccentric projection plate；6 be connecting rod I；7-1,7-2 are working shaft；8 be sleeve；9-1,9-2 are Toothed belt pulley；10-1,10-2 are Thrust bearing；11-1,11-2 are test piece frame；12-1,12-2 are positioning plate；13-1,13-2 are driven pulley；14-1,14-2 are Hollow shaft；15 be slider track；16 be connecting rod II；17 be gear wheel；18-1,18-2,18-3,18-4 are Toothed belt pulley；19 For support shaft；20 be thrust bearing；21-1,21-2 are Toothed belt pulley；22 be supporting rack；23-1 23-2 are synchronous belt band Wheel；24-1,24-2 be pinion gear, 25 sliding blocks.

Specific embodiment

It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.It is unless another It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field The identical meanings of understanding.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or combination thereof；

In order to facilitate narration, in the present invention if there is " on ", " under ", only " left side " " right side " printed words, expression and attached drawing in itself Upper and lower, left and right direction it is consistent, not to structure rise restriction effect, it is only for convenient for description the present invention and simplification retouch It states rather than indicates or imply signified equipment or element must have specific orientation, with specific azimuth configuration and operation, Therefore it is not considered as limiting the invention.

Term explains part:The terms such as term " installation ", " connected ", " connection ", " fixation " in the present invention should do broad sense Understand, for example, it may be being fixedly connected or being detachably connected or be integrated；Can be mechanical connection or Electrical connection, can be directly connected to or be indirectly connected by intermediary, can be connected inside two elements or The interaction relationship of two elements of person, for the ordinary skill in the art, can understand as the case may be on State concrete meaning of the term in the present invention.

In addition, the Toothed belt pulley that the driving pulley I/II/III, driven pulley I/II/III in the present invention are used, but Be Toothed belt pulley it is only one of embodiment, other belt wheels can also be used to be replaced.In the present invention Eccentric projection plate is only a kind of embodiment being eccentrically rotated in part, can also use other structure.

As background technology is introduced, deficiency exists in the prior art, the technical issues of in order to solve as above, the application Propose a kind of marine environment simulation test device.The present apparatus can simulate the true corrosive environment in off-lying sea indoors, and Round-the-clock automated job is really realized by water circulation system, realizes and is testing indoor simulation marine environment, especially to tide The simulation in poor area.By laboratory hanging test, corrosion data is monitored in real time, five not under marine environment for research steel material With the corrosion behavior and rule of zone, new method and new technology for Development of Marine corrosion control provide theoretical foundation.

Marine environment simulation test device provided by the invention, structure is as shown in the figure, device various dimensions movement is mutual It is combined, the accuracy of experiment is high, highly reliable, and the durability of equipment, stability are strong, and device volume is small, and flexibility is high, can use In kinds of experiments places such as laboratory, true oceans.

Marine environment simulation test device as shown in Figure 1, 2, 3, including a main shaft 1, main shaft 1 passes through one Motor drives its rotation, and main shaft passes through main supporting plate 3-1, positioning plate 12-1,12-2 and main supporting plate 3-2, main shaft 1 and main branch It is connected between fagging 3-1 by thrust bearing 2, is connected between main shaft 1 and main supporting plate 3-2 by thrust bearing 20；Main support It is supported between plate 3-2 and positioning plate by two supporting racks 22.

Main shaft 1 drives two working shafts to rotate by two sets of revolution motion devices, realizes circumference of the test piece in salt water tank Movement, simulation ship is in marine navigation；The main shaft is by two sets of reciprocator drivings working shaft in sea Pumping in water vat simulates ship jolting in wave；The main shaft is driven by two sets of spinning motion devices The working shaft rotation is moved, and then realizes rotation of the test piece in a wide range of process of revolution, ensures the uniform force of test piece, increases Piece of adding an examination of tests area.

In the centre position of main shaft 1, installation is there are one locating piece, the locating piece include one in cross installation and The positioning plate 12-1 and the both ends installation revolution motion device of positioning plate 12-2, the positioning plate 12-1 being fixed together, it is fixed One is respectively installed for setting working shaft 7-1,7-2 of test piece in the both ends of position plate 12-2；The revolution motion device realizes work Make the revolution of axis 7-1,7-2, the reciprocator realizes working shaft pumping relative to locating piece.

Working shaft 7-1,7-2 are mounted on positioning plate, and revolution motion device drives positioning plate revolution, and then realizes working shaft The revolution of 7-1,7-2.

Two sets of revolution motion devices include a driving gear being mounted on main shaft, i.e., the gear wheel 17 in figure is described Gear wheel 17 drives two driven gear I rotations, i.e. pinion gear 24-1,24-2 in figure；Two pinion gear 24-1,24-2 difference It is respectively mounted on hollow shaft 14-1, a 14-2, two hollow shafts are separately mounted to the both ends of positioning plate 12-1, and at two Be each provided with driven pulley 13-1, a 13-2 on hollow shaft, two driven pulleys 13-1,13-2 respectively on main shaft Two driving pulleys 18-1,18-2 pass through band connection.

Hollow shaft 14-1,14-2 described in two is symmetrical relative to main shaft 1；Hollow shaft 14-1,14-2 pass through taper roller Bearing 4-1,4-2 are mounted on positioning plate 12-1；Driving pulley 18-1,18-2 described in two are arranged up and down on main shaft 1； Driven pulley 13-1,13-2 are also arranged up and down, corresponding with the position of driving pulley 18-1,18-2 respectively.

Further, two sets of reciprocator structures are identical, and positioning plate 12-2 tops are mounted on including two Driving pulley II, i.e., Toothed belt pulley 23-1,23-2 in figure, Toothed belt pulley 23-1,23-2 described in two respectively with Two driven pulley II (i.e. Toothed belt pulley 18-3,18-4) on main shaft pass through band connection；Specific running part It is identical, it is illustrated for a set of below：It one is fixed at the top of Toothed belt pulley 23-1 is eccentrically rotated part and (scheme In eccentric projection plate 5), the eccentric projection plate 5 drives connecting rod I6 rotation, and the connecting rod I6 drives 25 water of sliding block Flat line, the sliding block 25 are connected with two connecting rod II16, and the connecting rod II16 drives above and below the working shaft 11-1 It moves back and forth.

Sliding block 25 is moved along slider track；Specific slider track structure is as shown in figure slider track 19, synchronous belt band Wheel 23-1,23-2 are supported respectively by support shaft, as shown in the figure, wherein Toothed belt pulley 23-1 is supported by support shaft 19.

Toothed belt pulley 23-1,23-2 described in two are symmetrical arranged relative to main shaft 1；Toothed belt pulley described in two 18-3,18-4 are arranged up and down on main shaft 1；

Further, two sets of spinning motion devices include two be separately mounted on working shaft 7-1,7-2 from Movable belt pulley III (Toothed belt pulley 21-1,21-2 i.e. in attached drawing), the driven pulley III described in two is (i.e. same in attached drawing Step with belt wheel 9-1,9-2) respectively with two driving pulley III (Toothed belt pulley 21- i.e. in attached drawing on main shaft 1st, 21-2) pass through band connection；And then the rotation of the company of realization working shaft.Working shaft described in two is relative to the main shaft pair Claim setting.

Bottom installation test piece frame 11-1,11-2 of working shaft 7-1,7-2.

Between heretofore described gear, belt wheel and axis by key connection, key can select flat key as needed Etc. different keys.The top that hollow shaft is two is connect by key with pinion gear, and corresponding main spindle's are connected with greatly Gear, gear wheel coordinate together with sleeve weld with gap of main reinforcement, and sleeve is fixed on by bearing on main shaft, and main shaft turns Sleeve is fixed when dynamic, and the gear wheel so as to be attached thereto is fixed, in the pinion gear and main shaft in two sets of revolution devices Same gear wheel engagement.During main axis, driving pulley thereon rotates therewith, and hollow shaft is delivered power to by V belt translation On driven pulley on, make hollow shaft own rotation, while the gear wheel on hollow shaft rotates therewith and because being nibbled with pinion gear It closes and whole around pinion rotation, so as to drive single unit system around the circular motion of main shaft, because positioning plate is connected with working shaft, It is achieved thereby that circular motion of the test piece in salt water tank.

Further, another preferred embodiment, in revolution motion device, eccentric projection plate is welded on driven belt On wheel, it is connect by hinge with one end of connecting rod I, the other end of connecting rod I is connected by hinge with sliding block, this hinge is mounted on On the upper surface of sliding block I, sliding block I is sleeved on on the mutually fixed guide rail of positioning plate, being moved back and forth along guide rail；The front surface of sliding block I It is connected by hinge with one end of connecting rod II, the other end of connecting rod II is connected by hinge with sliding block II, and hinge is mounted on sliding block In the front surface of II；Sliding block II is fixed by welding in working shaft upper end；

Eccentric projection plate, connecting rod I/II, sliding block I/II and rack form slider-crank mechanism, and wherein eccentric projection plate is visual For crank, during main axis, rotate eccentric projection plate by V belt translation, according to the motion principle of slider-crank mechanism, sliding block It can be moved back and forth on guide rail；Meanwhile sliding block, connecting rod I/II, sliding block I/II and rack form double-slider mechanism again, according to double The motion principle of slide block mechanism, sliding block can be along working shaft axially reciprocatings, it is achieved thereby that test piece due to the constraint of working shaft Pumping in salt water tank.

Further, another preferred embodiment, further includes sleeve I and II in autobiography telecontrol equipment, and sleeve I consolidates It is scheduled on positioning plate, an annular protrusion is arranged at sleeve II tops, and taper roll bearing is fixed between two sleeves；Sleeve II and working shaft Between connected by feather key, sleeve II does not move up and down therewith when so that the working shaft is pumped；Driven pulley III passes through Key connection is fixed on sleeve II, driven wheel III and then by the band moving sleeve II rotations of key connection with sleeve II, and sleeve II is again It is connect by the feather key with working shaft, delivers power to working shaft, make working shaft rotation.

Motive power transmitting device is located at main shaft side, including motor, retarder, shaft coupling.Motor and retarder phase Even, retarder is connected by shaft coupling with main shaft.Motor delivers power to retarder, and retarder reduction passes through connection after matching speed Power is transmitted to main shaft by axis device, and power then is transmitted to spinning motion by main shaft, revolution motion, moves back and forth three covering devices.

The foregoing is merely the preferred embodiments of the application, are not limited to the application, for the skill of this field For art personnel, the application can have various modifications and variations.It is all within spirit herein and principle, made any repair Change, equivalent replacement, improvement etc., should be included within the protection domain of the application.

Claims (10)

1. a kind of marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device, which is characterized in that including a master Axis, the main shaft rotate under the driving of driving device, and the main shaft drives two works by two sets of revolution motion devices Make axis rotation, realize circular motion of the test piece in salt water tank, simulation ship is in marine navigation；The main shaft passes through two sets Reciprocator driving working shaft the pumping in salt water tank, simulates ship jolting in wave； The main shaft realizes that test piece was revolved round the sun on a large scale by two sets of spinning motion device drivings working shaft rotation Rotation in journey ensures the uniform force of test piece, increases test piece experiment area；Sensor is equipped in the test piece, is passed through Sensor obtains the instant situation of test piece corrosion to detect.

2. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as described in claim 1, feature exist In the installation of the centre position of, the main shaft there are one locating piece, the locating piece includes one in cross installation and solid It is scheduled on the both ends installation revolution motion device of positioning plate I together and positioning plate II, the positioning plate I, the two of positioning plate II Each installation one is held to be used to set the working shaft of test piece；The revolution motion device realizes the revolution of working shaft, and described is past Multiple telecontrol equipment realizes working shaft pumping relative to locating piece.

3. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 2, feature exist In described two sets of revolution motion devices include a driving gear being mounted on main shaft, and the driving gear drives two Driven gear I rotates, and two driven gears are respectively mounted on a hollow shaft respectively, and two hollow shafts are separately mounted to position The both ends of plate I, and be each provided on two hollow shafts driven pulley an I, two driven pulley I respectively with mounted on main shaft On two driving pulley I pass through band connection.

4. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 3, feature exist In the hollow shaft described in two is symmetrical relative to main shaft.

5. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 3, feature exist In the driving pulley I described in two is arranged up and down on main shaft.

6. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 2, feature exist In, described two sets of reciprocators include two driven pulley II for being mounted on positioning plate II tops, described in two from Movable belt pulley II passes through band connection with two driving pulley II on main shaft respectively；At the top of the driven pulley II It fixes one and is eccentrically rotated part, the part that is eccentrically rotated drives connecting rod I rotations, and the connecting rod I drives a sliding block level Straight line, the sliding block are connected with connecting rod II, and the connecting rod II drives the working shaft to pump.

7. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 6, feature exist In the driven pulley II described in two is symmetrical arranged relative to main shaft.

8. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 6, feature exist In the driving pulley I described in two is arranged up and down on main shaft.

9. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 2, feature exist In, described two sets of spinning motion devices include two driven pulley III being separately mounted on working shaft, described in two from Movable belt pulley III passes through band connection with two driving pulley III on main shaft respectively；And then the company's of realization working shaft from Turn.

10. marine settings surface coating material antirust antifouling capacity dynamic simulation experimental device as claimed in claim 9, feature exist In the working shaft described in two is symmetrical arranged relative to the main shaft.