CN209542048U - Fresh water body is formed and transported simulation device after a kind of sea reclamation - Google Patents
Fresh water body is formed and transported simulation device after a kind of sea reclamation Download PDFInfo
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- CN209542048U CN209542048U CN201920550509.1U CN201920550509U CN209542048U CN 209542048 U CN209542048 U CN 209542048U CN 201920550509 U CN201920550509 U CN 201920550509U CN 209542048 U CN209542048 U CN 209542048U
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Abstract
It is formed the utility model relates to fresh water body after a kind of sea reclamation and transported simulation device, comprising: groove body system, groove body system, the shore model of side including groove body and in groove body;Injection forms Salt lake facies for the salt water of simulated seawater in groove body;Salt water system, salt water system include salt water spill box, salt water regulating box and salt water storage bin;The side of freshwater system, freshwater system and groove body is connected to and in communication with, and fresh water injects groove body;Rainfall system, rainfall system include the rain controller being arranged in above the groove body;Monitoring system, monitoring system include several probes, and probe is placed in groove body, monitor the piezometric head height of different location.Simulator provided by the utility model can simulate under a variety of scenes, the influence that reclamation migrates to salt-fresh water interface and poisons in freshwater.And each system relative separation of simulator, instrument assembling are safeguarded, are more convenient using opposite other instruments.
Description
Technical field
The utility model relates to poisons in freshwater migrations after freshwater resources research field more particularly to a kind of sea reclamation to influence
Simulator.
Background technique
With the development of economy, production and life require a large amount of lands used, and soil is more and more nervous, and the strategic point Xiang great Hai is solution
Certainly one of method, sea reclamation are exactly method of the mankind to sea strategic point.It is flat to be all made of method manufacture for many big coastal cities
Ground.Scale Sea Reclamation Project can significantly solve the problems such as coastal region land use is nervous, have huge economic benefit, but fill out sea
Epeirogenetic changes the Hydrodynamic field of coastal region, also profoundly affects the migration of poisons in freshwater, and then to fresh water exploitation, pollutant
Migration, building safety have an impact.
Scale Sea Reclamation Project affects the migration of poisons in freshwater by following methods: 1, because land area expands, connecing
More rainfalls have been received, more fresh water waters are obtained;2, seawater upcountry regional migration is blocked, salt-fresh water is made to have a common boundary
It is mobile towards ocean side;3, the natural outlet of fresh groundwater is blocked, change fresh groundwater naturally divides water spot position, makes
Divide the upward downstream of water spot, upstream water level is caused to be lifted.
In existing research, it is on probing into of influencing of strand poisons in freshwater migration for sea reclamation more be confined to mathematical model and
Numerical simulation, the research of physical model often lack integrality and timeliness, at present common field small range test and indoor soil
Column Leaching test etc., these tests are often difficult to the physical process that sea reclamation backshore sea water and fresh water water body is migrated and carry out whole weight
It is existing, to be difficult to expend money to fresh water body migration variation carries out comprehensive analysis and prediction after sea reclamation or simulated time is long
Source is more.
Utility model content
Technical problem to be solved in the utility model is in view of the deficiencies of the prior art, to provide one kind for probing into and fill out sea
The simulator that epeirogenetic influences the migration of strand fresh water body, to solve the above technical problems.
The technical solution that the utility model solves above-mentioned technical problem is as follows:
Fresh water body is formed after a kind of sea reclamation and transported simulation device, the simulator include:
Groove body system, the shore model of side including groove body and in groove body;
Salt water system, salt water system include sequentially connected salt water spill box, salt water regulating box and salt water storage bin, salty
The other side of water storage bin and groove body is connected to and in communication with, and for salt water of the injection for simulated seawater into the groove body, is formed
Salt lake facies, colored dyes are added in the salt water, and the elevation of water of the Salt lake facies is lower than the height of the shore model
Degree;
The side of freshwater system, freshwater system and groove body is connected to and in communication with, described for injecting fresh water into the groove body
Fresh water penetrates into the shore model and forms fresh water head, and the fresh water head height is high lower than the horizontal plane of the Salt lake facies
Degree;
Rainfall system, rainfall system include the rain controller being arranged in above the groove body, and rain controller is movable to Salt lake facies
Top or the top of shore model;
Monitoring system, monitoring system include several probes, and the probe is placed in groove body, for monitoring different location
Piezometric head height.
The utility model beneficial effect is, the model of sea reclamation is simulated and established by groove body system, passes through salt water
The salt water of system supply is used for simulated seawater environment, and the elevation of water of Salt lake facies is simulation lower than the height of shore model
Truth under shore model be higher than seawater horizontal plane;When experiment proceeds to certain phase, it may occur that fresh water flows into
In Salt lake facies, the saliferous rate of Salt lake facies is caused to reduce, and the saliferous rate of seawater will not be because of a small amount of in true natural environment
Fresh water injects and changes, to guarantee the true and accurate of simulated experiment, after detecting that Salt lake facies saliferous rate reduces, and experimenter
The salt content for increasing salt water by the salinity adjustment equipment in salt water system, ensure that the stabilization of Salt lake facies saliferous rate, salt water system
Salt water case is respectively set in salt water outflow, the three phases that salt water is adjusted, salt water flows into system, salt water saliferous rate can be made more steady
Fixed, salt water is labeled as the coloured clearer variation for observing salt-fresh water interface of energy;Freshwater system, for simulating shore
Poisons in freshwater;Rainfall system, for simulating natural precipitation, rain controller is movable to above Salt lake facies or on shore model
Raining in different location can be simulated;Monitoring system carries out simulated experiment for monitoring the displacement of water body in groove body system
Monitoring, while the intuitive transport conditions for obtaining shore poisons in freshwater.
Based on the above technical solution, the utility model can also do following improvement:
Further, groove body system further includes filling out extra large land-based area model, fills out extra large land-based area model and is set to the shore mould
Steel multilayer hollowed-out board is arranged close to the side of the salt water system, with Salt lake facies contact side in type.
Beneficial effect using above-mentioned further scheme is: fill out extra large land-based area model for simulate fill out extra large land-based area, this fills out Hai Lu
Domain model has tied up the space of Salt lake facies (seawater), is subjected to displacement salt-fresh water interface, fills out extra large land-based area and salt water side is arranged
There is steel multilayer hollowed-out board, both can guarantee that the exchange of water salt was unaffected, and can also maintain land model stability of slope simultaneously
Further, two different overflow launders of height are provided on the groove body of the corresponding Salt lake facies side;Overflow launder
Water outlet and the salt water system connectivity.
Beneficial effect using above-mentioned further scheme is: two different overflow launders of height, analog seawater is in difference
When sea level fluctuations, the difference of salt-fresh water interface location and poisons in freshwater form;The water outlet of overflow launder is connect with salt water system,
The salt water that overflow can be made to go out is returned to again in salt water system.
Further, there are two the salt water regulating box is set, the salt water spill box and salt water storage bin pass through threeway respectively
Pipe is connect with salt water regulating box, and the salt water spill box is also connected with external water source.
Beneficial effect using above-mentioned further scheme is: the setting of two salt water casees, can saliferous rate list to salt water
It is solely adjusted, can more accurately adjust the saliferous rate of salt water, two salt water casees are set side by side in the connection of tee tube.
Further, valve is equipped on three pipelines of the tee tube.
Beneficial effect using above-mentioned further scheme is: valve is respectively set in the pipeline on tee tube, makes salt water case
It selects use to reach possible, is discharged each water inlet and selects suitable salt water case.
Further, the salt water regulating box inner bottom surface is equipped with salinity measurement device, and the salt water adjusts box inner wall and is equipped with
Sensing device, the salt water regulating box is interior to be equipped with agitating device;The salt water system further includes processor, the salt water regulating box
The inner wall of top cover is equipped with storage salt cellar, and the storage salt cellar is equipped with solenoid valve, and the salinity measurement device, sensing device, stirs solenoid valve
It mixes device and valve is electrically connected with processor.
Beneficial effect using above-mentioned further scheme is: salinity measurement device contains for detecting the salt water in salt water regulating box
Salt rate, sensing device be used to incude salt water in salt water case number, agitating device for being stirred to the salt water in salt water case,
And it is added to automatic control system, the adjusting of salt water saliferous rate can be made more intelligent, mitigate the work load of staff.
Further, the freshwater system includes sink, being gone out by what water pump was connect with groove body set on sink side bottom edge
The mouth of a river and water inlet;The water inlet is connected with external water source.
Using the beneficial effect of above-mentioned further scheme is: freshwater system provides the fresh water of shore for experimental model
Water body can really react the variation of the poisons in freshwater of coastal region.
Further, the rainfall system further includes support post and sliding rail;The rain controller is slidably connected at the cunning
On rail;The sliding rail is arranged above the groove body by support post.
Beneficial effect using above-mentioned further scheme is: rain controller moves on the slide rail, on the slide rail by rain controller
Movement, main rainfall amount may be selected and occur on sea, several situations such as fill out extra large land-based area, shore.Rainfall is uniformly past
Moving rain controller again can simulated precipitation scene.Probe into seawater invasion and poisons in freshwater state in different rainfall scenes.
Further, the support post is equipped with the rail fixing part of different height, and the sliding rail is removably fixed
A rail fixing part wherein.
Using the beneficial effect of above-mentioned further scheme is: the rail fixing part that different height is provided on support column can be with
The height for changing sliding rail, enables the height of rain controller change, and occurs in simulation main rainfall amount at sea, can get and more close
Suitable Rainfall height.
Further, the rain controller is successively arranged needle-based raindrop generator, glass inside groove, inside groove support from top to bottom
And support column;Multiple rain controller sockets, the needle section of the needle-based raindrop generator are uniformly provided in the glass inside groove
Position is leant out downwards from rain controller socket;The inside groove support is equipped with the protrusion for limiting groove location in glass;The support column
Equipped with pulley, the pulley is set on the sliding rail.
Beneficial effect using above-mentioned further scheme is: needle-based raindrop generator can enable precipitation more evenly, it is easier to
The size of precipitation is controlled, the rain controller socket being uniformly arranged in glass inside groove makes rainfall more uniform, and pulley can drive drop
Rain device moves on the slide rail, and by mobile rain controller, main rainfall amount may be selected and occur on sea, fill out extra large land-based area, shore
Etc. several scenes.Rainfall uniformly moves back and forth the uniform precipitation scene of rain controller i.e. analog.It probes into different rainfall scenes
When seawater invasion and poisons in freshwater state.
Detailed description of the invention
Fig. 1 is the schematic diagram of the utility model simulator;
Fig. 2 is the structural schematic diagram of the utility model simulator bracket groove system system;
Fig. 3 is the schematic diagram of salt water system in the utility model simulator;
Fig. 4 is the schematic diagram of salt water regulating box one in the utility model simulator;
Fig. 5 is the schematic diagram of freshwater system in the utility model simulator;
Fig. 6 is the schematic diagram of the support of rainfall system and track in the utility model simulator;
Fig. 7 is the schematic diagram of rainfall system rain controller in the utility model simulator;
Wherein, parts list represented by the reference numerals are as follows:
1, groove body;11, overflow launder one;12, overflow launder two;13, Salt lake facies plane;2, salt water system;21, salt water overflow
Case;22, salt water regulating box one;221, one water inlet of salt water regulating box;222, one water outlet of salt water regulating box;223, salinity measurement
Device;224, salt cellar is stored up;225, sensing device;226, agitating device;23, salt water regulating box two;24, salt water storage bin;25, salt
Spend detector;3, freshwater system;31, sink;32, water outlet;33, water inlet;4, rainfall system;41, support post;42, sliding
Rail;43, rail fixing part;44, glass inside groove;45, rain controller socket;46, inside groove supports;47, support column;48, bottom pulley;
5, shore model;6, extra large land-based area model is filled out.
Specific embodiment
The principles of the present invention and feature are described below in conjunction with attached drawing, example is served only for explaining that this is practical
It is novel, it is not intended to limit the scope of the utility model.
In the description of the present invention, it should be understood that term " on ", "lower", "center", "inner", "outside",
The orientation or positional relationship of the instructions such as "top", "bottom" is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of retouching
State the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with
Specific orientation construction and operation, therefore should not be understood as limiting the present invention.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection;It can be mechanical connection, be also possible to be electrically connected;Can be directly connected, can also indirectly connected through an intermediary,
It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
The concrete meaning of language in the present invention.
As shown in Figure 1, being the structural schematic diagram of the utility model simulator, the utility model, which provides one kind, to be filled out sea and make
Fresh water body is formed behind land and transported simulation device, the simulator include: groove body system, including groove body 1 and is located at groove body side
Shore model 5;Injection forms Salt lake facies, the level of the Salt lake facies for the salt water of simulated seawater in the groove body 1
Face height is lower than the height of the shore model 5;Salt water system 2, salt water system 2 connect and connect with the other side of groove body 1
It is logical, colored dyes appropriate are added in salt water and are labeled so as to the clearer intersection for finding out salt-fresh water, keep salt water
Saliferous rate is in order to better simulated seawater;Freshwater system 3, freshwater system 3 are connect with the groove body 1 of 5 side of shore model
And be connected to, the fresh water in freshwater system injects groove body, penetrates into from shore model side, forms fresh water head, maintains specific
Head height, the fresh water head height be lower than the Salt lake facies elevation of water;Rainfall system 4, rainfall system 4 are arranged
Above the groove body 1, carry out simulated precipitation above groove body, simulation in sea reclamation precipitation to salt-fresh water interface and light
The influence of water water body migration;Monitoring system, monitoring system include several probes, and probe is placed in groove body 1, monitor different location
Piezometric head height, probe can be used three letter 2301T-F/2301-C plastic housing conductance electrode seawater test laboratory conductivity spy
Head.
As shown in Fig. 2, for the structural schematic diagram of the utility model simulator bracket groove system system;The groove body system further includes
Extra large land-based area model 6 is filled out, the model of the extra large existing sea reclamation of land-based area modeling is filled out, using clay or fine sand or coarse sand or gravel
The molding of the material fillings such as stone, the side for filling out extra large land-based area model 6 and the shore model 5 are adapted, fill out sea for simulation and make
Formed after Lu Chenggong land, it is described to fill out extra large land-based area model 6 and Salt lake facies contact side is arranged steel multilayer and engraves
Hollow plate, steel multilayer hollowed-out board ensure that the exchange of water salt is unaffected, and maintain the stabilization of land model side slope.It is described salty
Height different overflow launder 1 and overflow launder 2 12 are provided on the groove body 1 of water body side;Two overflow launders, which are equipped with, leads
Flowing plate makes the salt water of overflow by deflector reflux into the sink of salt water system, and two overflow launders are equipped with baffle, may be selected not
Level overflow channel, the salt water horizontal plane of the settable different height of the overflow launder of different height compare sea height not
With when poisons in freshwater displacement.
As shown in figure 3, the salt water system includes that salt water overflows for the schematic diagram of salt water system in the utility model simulator
Flow case 21, salt water regulating box 1, salt water regulating box 2 23 and salt water storage bin 24.Salt water spill box 21 and salt water regulating box
1 and salt water regulating box 2 23 connected by tee tube, tee tube is equipped with valve, and salt water spill box 21 is also connected with outer
Portion water source.
As shown in figure 4, for the schematic diagram of salt water regulating box 1 in the utility model simulator, salt water regulating box 2 23
Structure it is identical as salt water regulating box 1, salt water regulating box bottom be equipped with salinity measurement device 223, salt water adjust box inner wall on
Equipped with storage salt cellar 224, salt water adjusts chamber interior wall and is equipped with sensing device 225, salt water regulating box lower than the position of the storage salt cellar 224
In be equipped with agitating device 226;Salt water system is additionally provided with processor, and processor and salinity measurement device, sensing device, stir storage salt cellar
Device and electrically operated valve electrical connection are mixed, this electrically connects as being attached by water proof wire.
Extra salt water goes out from overflow port overflow in groove body, flows into salt water spill box, passes through threeway from salt water spill box 21
Pipe enters salt water regulating box 1, and when salt water is accumulate to 225 height of sensing device in salt water regulating box 1, processor is issued
Signal closes the water inlet valve of salt water regulating box 1, opens the inlet valve of salt water regulating box 2 23, salt water spill box 21
In salt water enter salt water regulating box 2 23, the salinity measurement device 223 in salt water regulating box 1 detects salt water saliferous rate,
Signal is transmitted to processor, and the conclusion that processor obtains needing to add how much salt is transferred to corresponding storage salt cellar 224, makes to store up salt cellar
224 solenoid valve is opened, and salt enters salt water regulating box 1, and agitating device 226 is started to work, and after mixing evenly, salt water is adjusted
222 valve of water outlet of case 1 is opened, and the salt water after adjusting saliferous rate enters salt water storage bin, the outlet of salt water storage bin with
Groove body connection.When the salt water of salt water regulating box 2 23 is accumulate to the sensing device height of salt water regulating box 2 23, salt water is closed
The inlet valve of regulating box 2 23 opens simultaneously 221 valve of water inlet of salt water regulating box 1, salty in salt water spill box 21
Water enters salt water regulating box 1, while the salt water in salt water regulating box 2 23 carries out the adjusting of saliferous rate.
As shown in figure 5, for the structural schematic diagram of freshwater system in the utility model simulator, which includes
Sink 31, water outlet 32, water inlet 33 and water pump.Water outlet 32 is connect with 1 side of groove body;The water inlet 33 is connected with
External water source;Water outlet 32 is equipped with water pump.
It as shown in fig. 6-7, is the structural schematic diagram of rainfall system in the utility model simulator, rainfall system 4 includes
Four support posts 41, rain controller and sliding rail 42;Four support columns are respectively arranged on four angles of groove body, and rain controller is made to be in slot
The top of body, the support post 41 are equipped with the rail fixing part 43 of different height;Rail fixing part is equipped with internal screw thread, sliding rail
42 are detachably secured to rail fixing part 43 by screw;The rain controller is set on the sliding rail 42.Sliding rail is arranged in parallel
When, rain controller can slide determining rainfall position manually on the slide rail.
In addition, sliding rail also tiltable is arranged, the sliding rail being obliquely installed is equipped with determining card slot, and rain controller is movable to certain
The card slot of a determining position is fixed.
Rain controller includes needle-based raindrop generator, glass inside groove 44, inside groove support 46 and support column 47;The glass
The bottom surface of glass inside groove 44 is uniformly provided with multiple rain controller sockets 45, and the syringe needle position of the needle-based raindrop generator is from rain controller
Socket is leant out downwards;The inside groove support 46 is rectangular frame, the size of the rectangular frame and the glass inside groove 44
It is adapted, four angles of the rectangular frame are equipped with the protrusion for limiting 44 position of glass inside groove;The support column 47 is
With the adaptable frame of inside groove support 46, four angles of frame are equipped with bottom pulley 48, and the bottom pulley 48 is set to described
On sliding rail 42, pulley driving rain controller moves on the slide rail, and rainfall position is made to be respectively at Salt lake facies, sea reclamation model and shore
Above extra large land model.
The simulator course of work provided by the utility model is as follows, installs salt water system, groove body system, rainfall in order
System and freshwater system first open water pump and fresh water head, the rear external water source for opening salt water spill box, Xiang Xianshui system are arranged
Middle addition water, disconnects external water source after Salt lake facies and poisons in freshwater are provided with,
1, whether there is or not fill out influence of the sea to poisons in freshwater for comparison
Under the conditions of uniform rainfall, the form of salt-fresh water interface and poisons in freshwater is first recorded, fills out extra large land-based area mould afterwards
Type re-records the form of salt-fresh water interface and poisons in freshwater, compares with the record for filling out extra large land-based area model is not loaded;
2, influence of the comparison material reclamation difference to poisons in freshwater
The back-up sand type and compactness of extra large land-based area model are filled out in change, change its infiltration coefficient, such as use clay, fine sand, thick
Sand, gravel fill out extra large land-based area model respectively, change the difference in reclaimation area domain and shore infiltration coefficient, compare salt-fresh water friendship
The difference of interface location and poisons in freshwater form.
3, influence of the rainfall position difference to poisons in freshwater
Rain controller is slided by mobile, main rainfall amount may be selected and occur in Salt lake facies (sea), fill out extra large land-based area and strand
Several scenes such as land, rainfall uniformly move back and forth sliding rain controller, that is, analog uniform rainfall situation, when simulation is main
Precipitation occurs at sea, can also attempt to change sliding rain controller orbit altitude, salt-fresh water is handed over when more different rainfall scenes
The difference of interface location and poisons in freshwater form.
4, influence of the rainfall intensity difference to poisons in freshwater
Deionized water is pumped into sliding rain controller by peristaltic pump and keeps water, by adjusting wriggling pump rate, record is gone
Ionized water usage amount, the difference of salt-fresh water interface location and poisons in freshwater form under more different rainfall intensities.
5, extra large land-based area and influence of the sea inclination angle to poisons in freshwater are filled out
Change the inclination angle for filling out extra large land-based area Yu salt water boundary side, compares salt-fresh water interface under the different angle for filling out extra large land-based area
The difference of position and poisons in freshwater form.
6, influence of the salt water SEA LEVEL VARIATION to poisons in freshwater
By two overflow launders being arranged on groove body, change Salt lake facies water level, when more different Salt lake facies (seawater) water levels
The difference of salt-fresh water interface location and poisons in freshwater form.
The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all practical at this
Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model
Within the scope of shield.
Claims (10)
1. fresh water body is formed and transported simulation device after a kind of sea reclamation, which is characterized in that the simulator includes:
Groove body system, the shore model of side including groove body and in groove body;
Salt water system, salt water system include sequentially connected salt water spill box, salt water regulating box and salt water storage bin, salt water storage
The other side for depositing case and groove body is connected to and in communication with, and for salt water of the injection for simulated seawater into the groove body, and is formed salty
Water body, colored dyes are added in the salt water, and the elevation of water of the Salt lake facies is lower than the height of the shore model;
The side of freshwater system, freshwater system and groove body is connected to and in communication with, for injecting fresh water, the fresh water into the groove body
It penetrates into the shore model and forms fresh water head, the fresh water head height is lower than the elevation of water of the Salt lake facies;
Rainfall system, rainfall system include the rain controller being arranged in above the groove body, and rain controller is movable to above Salt lake facies
Or above shore model;
Monitoring system, monitoring system include several probes, and the probe is placed in groove body, for monitoring the survey pressure of different location
Head height.
2. fresh water body formation and transported simulation device after sea reclamation according to claim 1, it is characterised in that: the slot
System system further includes filling out extra large land-based area model, described to fill out extra large land-based area model and be set to the shore model close to the salt water system
Steel multilayer hollowed-out board is arranged with Salt lake facies contact side in the side of system.
3. fresh water body formation and transported simulation device after sea reclamation according to claim 1, it is characterised in that: corresponding institute
It states and is provided with two different overflow launders of height on the groove body of Salt lake facies side;The water outlet of the overflow launder with it is described salty
The connection of water spill box.
4. fresh water body formation and transported simulation device after sea reclamation according to claim 1, it is characterised in that: it is described salty
There are two water regulating box is set, the salt water spill box and salt water storage bin pass through tee tube and two salt water regulating boxs respectively
Connection;
The salt water spill box is also connected with external water source.
5. fresh water body formation and transported simulation device after sea reclamation according to claim 4, it is characterised in that: described three
Valve is equipped on three pipelines of siphunculus.
6. fresh water body formation and transported simulation device after sea reclamation according to claim 5, it is characterised in that:
The salt water regulating box inner bottom surface is equipped with salinity measurement device, and the salt water adjusts box inner wall and is equipped with sensing device,
Agitating device is equipped in the salt water regulating box;
The salt water system further includes processor, and the inner wall of the salt water regulating box top cover is equipped with storage salt cellar, the storage salt cellar
It is equipped with solenoid valve, the salinity measurement device, solenoid valve, sensing device, agitating device and valve are electric with the processor
Connection.
7. fresh water body formation and transported simulation device after sea reclamation according to claim 1, it is characterised in that: described light
Water system include sink, set on sink side bottom edge by water pump with connect water outlet and water inlet;The water inlet connection
External water source.
8. fresh water body is formed after sea reclamation according to any one of claims 1 to 7 and transported simulation device, feature exist
In: the rainfall system further includes support post and sliding rail;The rain controller is slidably connected on the sliding rail;The sliding rail is logical
Support post is crossed to be arranged above the groove body.
9. fresh water body formation and transported simulation device after sea reclamation according to claim 8, it is characterised in that: the branch
The rail fixing part that column is equipped with different height is supportted, the sliding rail is detachably mounted to one of rail fixing part.
10. fresh water body formation and transported simulation device after sea reclamation according to claim 8, it is characterised in that: described
Rain controller is successively arranged needle-based raindrop generator, glass inside groove, inside groove support and support column from top to bottom;
It is uniformly provided with multiple rain controller sockets in the glass inside groove, the syringe needle position of the needle-based raindrop generator is from rainfall
Device socket is leant out downwards;
The inside groove support is equipped with the protrusion for limiting groove location in glass;
The support column is equipped with pulley, and the pulley is set on the sliding rail.
Priority Applications (1)
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CN201920550509.1U CN209542048U (en) | 2019-04-22 | 2019-04-22 | Fresh water body is formed and transported simulation device after a kind of sea reclamation |
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CN201920550509.1U CN209542048U (en) | 2019-04-22 | 2019-04-22 | Fresh water body is formed and transported simulation device after a kind of sea reclamation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115575093A (en) * | 2022-11-16 | 2023-01-06 | 中国海洋大学 | Sea-filling area double-seepage unit simulation device and test method thereof |
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2019
- 2019-04-22 CN CN201920550509.1U patent/CN209542048U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115575093A (en) * | 2022-11-16 | 2023-01-06 | 中国海洋大学 | Sea-filling area double-seepage unit simulation device and test method thereof |
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