CN109315280A - Simulate Lang Chong and wind friction culture integrated device and application method - Google Patents

Abstract

Simulation Lang Chong and wind friction cultivate integrated device and application method and promote the research of aquatic plants growth for simulating the growing environment of water plant.It includes that cabinet, plant box, wave rush generating mechanism and air-flow generating mechanism, transparent plant box is fixed in cabinet, the plant hole of plant is placed there are four setting at the top of plant box, the lower part for counting second, third plant hole from left to right passes through limbers and is connected to cabinets cavity, from left to right number first, the 4th plant hole lower part pass through aperture and be connected to cabinets cavity；The venthole being connected to first, second plant hole is equipped on the rear wall of plant box, flow generator structure connect with two ventholes and sprays into air into plant hole；It is equipped with wave in cabinet and rushes generating mechanism, wave, which rushes generating mechanism, which stirs the culture solution in cabinets cavity, keeps it mobile to the side where plant box.The simulation to the growing environment of water plant may be implemented in the present invention.

Description

Simulate Lang Chong and wind friction culture integrated device and application method

Technical field

The present invention relates to water plant culture technique field, specifically a kind of simulation Lang Chong and wind friction culture one Device and application method.

Background technique

Due to being rubbed these natural characteristics by Lang Chong and wind and environmental factor is influenced, seashore wetland plant faces this often Class natural phenomena and illustrate unique adaptability.Lang Chong and wind friction are limited to strand due to lacking related equipment The research that wetland plant influences, so, it is focused mostly at present by the research of Lang Chong and wind frictional influence in field in relation to wetland plant Natural habitat is tested in situ.Therefore it needs a kind of simulation Lang Chong to rub with wind and cultivates integrated device, set seashore wetland plant Culture, in one, realizes that the growing environment of wetland plant simulates and is manually incubated at one with Lang Chong and wind tribological modeling function, It lays the foundation for seashore wetland plant growth characteristics and environmental response research.

Summary of the invention

The purpose of the present invention is to provide a kind of simulation Lang Chong and wind friction culture integrated device and application methods, are used for mould The growing environment of quasi- water plant, promotes the research of aquatic plants growth.

The technical scheme adopted by the invention to solve the technical problem is that: simulation Lang Chong and wind friction culture integrated device, It is characterized in that it includes that cabinet, plant box, wave rush generating mechanism and air-flow generating mechanism, transparent plant is fixed in cabinet Strain box, sets there are four the plant hole for placing plant at the top of plant box, counts the lower part in second, third plant hole from left to right Be connected to cabinets cavity by limbers, from left to right number first, the 4th plant hole lower part pass through aperture and cabinet Inner cavity connection；Be equipped with the venthole that be connected to first, second plant hole on the rear wall of plant box, flow generator structure and Two ventholes, which are connected, sprays into air into plant hole；It is equipped with wave in cabinet and rushes generating mechanism, wave rushes generating mechanism and stirs cabinet Culture solution in inner cavity keeps it mobile to the side where plant box.

Further, the inner cavity of the cabinet includes mutually independent placed cavity and culture chamber, and plant box is fixed on culture It is intracavitary.

Further, wave rushes generating mechanism and includes the agitating shaft being rotatably installed between culture chamber and placed cavity, is fixed on The motor that agitating shaft rotation is driven in placed cavity is arranged in a blade on agitating shaft outer wall.

Further, flow generator structure includes the main tracheae being fixed on cabinet, two branch being arranged on main tracheae Tracheae and the air injection unit that air is intratracheally sprayed into master, bronchial lower end is fixed on the rear wall of plant box and passes through Venthole is connected to the inner cavity in plant hole.

Further, air injection unit includes drive sprocket on the agitating shaft being fixed in placed cavity, is arranged in placed cavity Interior driven sprocket, the chain being arranged between driven sprocket and drive sprocket, setting coaxial with driven sprocket crank, with it is bent The connecting rod of handle articulated connection, fixes the work on the piston rod and being movably arranged in inflator at the piston rod being articulated and connected with connecting rod The air inlet pipe and an air outlet pipe filled in, be arranged on inflator is equipped with check valve, escape pipe and main tracheae in air inlet pipe and an air outlet pipe Connection.

Further, be equipped with the installation cavity that is coaxially arranged with first, second plant hole on plant box, installation cavity with Venthole connection, is equipped with switching valve in installation cavity, and switching valve is cirque structure, and ring is equipped in the circular side wall of switching valve Air flue is surrounded between the inner wall of slot, annular groove and installation cavity, through-hole is equipped on the side wall of switching valve, intrabronchial air enters Subsequent via through holes enter in plant hole in air flue.

Further, it being set at the top of plant box there are two arc groove, arc groove is connected to first, second plant hole, Slide bar is fixed at the top of switching valve, slide bar is placed in arc groove, and handle is fixed at the top of slide bar.

Further, the first end cover of sealing placed cavity, the second end cover of sealing culture chamber are equipped in top of the box.

Simulate Lang Chong and wind friction culture integrated device application method, characterized in that it the following steps are included:

(1) plant is placed on plant box, culture solution is added into cabinet；

(2) agitating shaft is shaken, so that water flow and air-flow constantly rush at plant, and then realizes and wind is fitted to the unrestrained punch die of plant Tribological modeling.

The beneficial effects of the present invention are: simulation Lang Chong provided by the invention and wind friction culture integrated device and user The simulation to the practical growing environment of water plant may be implemented in method, and being only arranged can be same when a motor and the motor work When simulation have wind, have unrestrained environment, structure is simple.The setting of switching valve, thus it is possible to vary the flow direction of wind, and then it is first to simulate different wind directions Influence under acting on afterwards to water plant plant.

Detailed description of the invention

Fig. 1 is schematic top plan view of the invention；

Fig. 2 is to remove the schematic diagram after first end cover and second end cover in Fig. 1；

Fig. 3 is assembling schematic diagram of the agitating shaft in culture chamber；

Fig. 4 is the schematic top plan view of plant box；；

Fig. 5 is the front schematic view of plant box；

Fig. 6 is the schematic rear view of plant box；

Fig. 7 is the schematic three dimensional views (removing switching valve) of plant box；

Fig. 8 is the A-A cross-sectional view in Fig. 4；

Fig. 9 is the schematic three dimensional views of switching valve；

Figure 10 is the top view of switching valve；

Figure 11 is the schematic diagram of flow generator structure；

In figure: 1 cabinet, 11 placed cavities, 12 culture chambers, 13 first end covers, 14 second end covers, 2 plant boxes, 21 plant holes, 22 limbers, 23 apertures, 24 ventholes, 25 installation cavitys, 26 arc grooves, 3 switching valves, 31 annular grooves, 32 through-holes, 33 slide bars, 34 hands Handle, 4 agitating shafts, 41 stirring sheets, 42 bearings, 43 motors, 44 drive sprockets, 45 chains, 46 driven sprockets, 5 inflators, 51 air inlets Hole, 52 ventholes, 53 air inlet pipe, 54 escape pipes, 55 pistons, 56 piston rods, 57 connecting rods, 58 cranks, 6 main tracheaes, 61 bronchuses, 7 culture solutions.

Specific embodiment

As shown in Figure 1 to 11, simulation Lang Chong of the invention and wind friction culture integrated device mainly include cabinet 1, plant Strain box 2, switching valve 3, wave generation mechanism and air-flow generating mechanism, present invention is described with reference to the accompanying drawing.

As shown in Figure 1 and Figure 2, cabinet 1 is the cuboid Transparent Parts of open top and is hollow structure, the inner cavity of cabinet Including mutually indepedent and left and right settings placed cavity 11 and culture chamber 12, it is equipped with the first end of sealing placed cavity at the top of the box body Lid 13, the second end cover 14 for sealing culture chamber.When in off working state, first end cover and second end cover are covered, with realization pair The sealing of placed cavity and culture chamber avoids the influence of dust.

Plant box 2 is equipped in culture chamber, the bottom of plant box is contacted with the bottom of culture chamber.As shown in Fig. 4 to Fig. 8, Plant box is the Transparent Parts of cuboid, and the circular plant hole 21 there are four spaced set is set at the top of plant box, Water plant plant is placed in plant hole, sets the limbers 22 there are two bar shaped, one of limbers in the lower part of plant box It is connected to the lower part in second plant hole of number from left to right, another limbers and the lower part for counting third plant hole from left to right Connection, and the front-rear side walls of plant box are run through in limbers.Two apertures 23 are additionally provided on the front side wall of plant box, one of them Aperture is connected to the lower part in first plant hole of number from left to right, under another aperture and from left to right the 4th plant hole of number Portion's connection.Set the venthole 24 there are two bar shaped on the rear wall of plant box, one of venthole and number from left to right the The top connection in one plant hole, another venthole are connected to the top in second plant hole of number from left to right.In plant box On set there are two installation cavity 25, one of installation cavity is coaxially arranged with first plant hole of number from left to right and is placed in the plant The top in strain hole, another installation cavity are coaxially arranged with second plant hole of number from left to right and are placed in the upper of the plant hole Portion；Installation cavity corresponding in this way, plant hole and venthole are interconnected.It is set at the top of plant box there are two arc groove 26, In an arc groove be connected to first plant hole of number from left to right, another arc groove and second plant hole of number from left to right Connection.

Switching valve 3 is installed in installation cavity, as shown in Fig. 9 to Figure 10, switching valve 3 is the transparent plastic of cylinder-like structure Part is equipped with annular groove 31 in the circular side wall of switching valve, and through-hole 32 is equipped on the side wall of switching valve, solid at the top of switching valve Surely there is slide bar 33, handle 34 is fixed at the top of slide bar.When installation, switching valve is placed in installation cavity, at this time switching valve Side wall is contacted with the inner wall of installation cavity and good seal, and air flue is surrounded between annular groove and the inner wall of installation cavity, and air can be through logical Stomata enters in air flue, in subsequent via through holes outflow spray people plant hole.Slide bar is placed in arc groove, stirs handle at this time, can be with The rotation of switching valve is driven, and then changes the direction of through-hole, and then can change the direction of the air-flow entered in plant hole.Make Used time can rotate switching valve, adjust the wind direction for blowing to plant, and then simulate different wind directions and successively act on water plant plant When influence to plant strain growth.

Culture solution is poured into when use in the culture chamber of cabinet, the liquid level of culture solution should be lower than the minimum point of installation cavity.

Environment is rushed for wave of the simulated flow to plant, agitating shaft 4 is rotatably equipped with by a pair of bearings 42 in culture chamber, As shown in Figure 2 and Figure 3, a blade 41 is fixed on agitating shaft, agitating shaft is higher than culture solution blade, when blade is in vertical State and downward when, the free end of blade is extend under liquid level.When agitating shaft rotation, blade is stirred culture solution and then is formed Wave is simultaneously mobile to the side where plant box, and then impacts plant.

For the rotation for driving agitating shaft, the left end of agitating shaft is extend into placed cavity, and motor 43 is fixed in placed cavity, Motor output end and agitating shaft are connected to drive the rotation of agitating shaft.Agitating shaft, blade and motor constitute wave generation mechanism.

To spray into air into air flue, flow generator structure is additionally provided in cabinet.As shown in Fig. 2, Figure 11, air-flow occurs Mechanism includes main tracheae 6, bronchus 61 and air injection unit, and main tracheae is fixed in cabinet and the left end of main tracheae is placed in placed cavity Interior, the right end of main tracheae is placed in culture chamber, is fixed with a pair of of bronchus 61 in the bottom for the main tracheae being placed in culture chamber, branch Tracheae is connected to venthole.Air injection unit includes the inflator 5 being fixed in placed cavity, the air inlet pipe 53 being arranged on inflator and goes out Tracheae 54, the piston 55 being movably arranged in inflator, the piston rod 56 being fixed on piston, the connecting rod with piston rod articulated connection 57, with the hinged crank of connecting rod 58, setting coaxial with crank driven sprocket 45, be fixed on agitating shaft drive sprocket 44, Chain 46 between drive sprocket and driven sprocket is set.Air inlet 51 and venthole 52 are equipped on the side wall of inflator, into Tracheae is connected to by air inlet with inflator inner cavity, and escape pipe is connected to by venthole with inflator inner cavity.In air inlet pipe and an air outlet pipe On be equipped with check valve, under the action of check valve, air-flow can only enter in inflator through air inlet pipe, and air-flow can only be through escape pipe stream Gas outlet.

After culture solution 7 is added into cabinet, when motor work, agitating shaft rotation generates wave and wave pushes plant box to Environment is rushed to simulate wave；Air-flow in inflator enters in plant hole through main trachea-bronchial epithelial cell, air flue to simulate wind friction environment.

Wind friction environment can be simulated on the top in first, second plant hole of number from left to right, is being counted from left to right The lower part wave that can rub in second, third plant hole rush environment.It therefore, can in first plant hole of number from left to right There is wind without unrestrained environment with simulation, can simulate wind in second plant hole of number from left to right has unrestrained environment, from left-hand Can be simulated in the third plant hole of right number it is calm have unrestrained environment, from left to right number the 4th plant hole in can simulate Environment with no wind, no waves.

The growing environment table simulated in plant hole

When needing to simulate influence of the wind of different directions to plant, switching valve can be rotated, the direction of through-hole is changed.

Simulation Lang Chong of the invention and wind friction culture integrated device, may be implemented to the practical growing environment of water plant Wind can have been simulated simultaneously, has had unrestrained environment when simulating, and a motor and motor work being only set, and structure is simple.Switching valve Setting, thus it is possible to vary the flow direction of wind, and then simulate the influence under different wind directions successively act on to water plant plant.

Simulate the application method of Lang Chong and wind friction culture integrated device, comprising the following steps:

(1) plant is placed on plant box, culture solution is added into cabinet；

(2) agitating shaft is shaken, so that water flow and air-flow constantly rush at plant, and then realizes and wind is fitted to the unrestrained punch die of plant Tribological modeling.

Claims (9)

1. simulating Lang Chong and wind friction culture integrated device, characterized in that it include cabinet, plant box, wave rush generating mechanism and Flow generator structure is fixed with transparent plant box in cabinet, set at the top of plant box there are four place plant plant Hole, the lower part for counting second, third plant hole from left to right pass through limbers and are connected to cabinets cavity, from left to right number One, the lower part in the 4th plant hole passes through aperture and is connected to cabinets cavity；Be equipped on the rear wall of plant box with first, the The venthole of two plant holes connection, flow generator structure connect with two ventholes and spray into air into plant hole；In cabinet Generating mechanism is rushed equipped with wave, wave, which rushes generating mechanism, which stirs the culture solution in cabinets cavity, makes it to the sidesway where plant box It is dynamic.

2. simulation Lang Chong according to claim 1 and wind friction culture integrated device, characterized in that the inner cavity of the cabinet Including mutually independent placed cavity and culture chamber, plant box is fixed in culture chamber.

3. simulation Lang Chong according to claim 1 and wind friction culture integrated device, characterized in that wave rushes generating mechanism packet Include the agitating shaft being rotatably installed between culture chamber and placed cavity, a blade being fixed on agitating shaft outer wall, setting are being put Set the motor of intracavitary driving agitating shaft rotation.

4. simulation Lang Chong according to claim 1 and wind friction culture integrated device, characterized in that flow generator structure packet Include the main tracheae being fixed on cabinet, two bronchuses being arranged on main tracheae and to the main intratracheal jet for spraying into air Unit, bronchial lower end are fixed on the rear wall of plant box and are connected to by venthole with the inner cavity in plant hole.

5. simulation Lang Chong according to claim 4 and wind friction culture integrated device, characterized in that air injection unit includes solid The drive sprocket that is scheduled on the agitating shaft in placed cavity, is arranged in driven sprocket and master the driven sprocket being arranged in placed cavity The crank of chain, setting coaxial with driven sprocket between movable sprocket is articulated and connected with the connecting rod of crank articulated connection, with connecting rod Piston rod, it is fixed on the piston rod and the piston being movably arranged in inflator, the air inlet pipe and an air outlet pipe being arranged on inflator, Check valve is equipped in air inlet pipe and an air outlet pipe, escape pipe is connect with main tracheae.

6. simulation Lang Chong according to claim 4 and wind friction culture integrated device, characterized in that be equipped on plant box The installation cavity being coaxially arranged with first, second plant hole, installation cavity are connected to venthole, and conversion is equipped in installation cavity Valve, switching valve are cirque structure, and annular groove is equipped in the circular side wall of switching valve, is surrounded between annular groove and the inner wall of installation cavity Air flue, is equipped with through-hole on the side wall of switching valve, and intrabronchial air enters subsequent via through holes in air flue and enters in plant hole.

7. simulation Lang Chong according to claim 1 and wind friction culture integrated device, characterized in that at the top of plant box If arc groove is connected to first, second plant hole there are two arc groove, slide bar is fixed at the top of switching valve, slide bar is set In in arc groove, handle is fixed at the top of slide bar.

8. simulation Lang Chong according to claim 1 and wind friction culture integrated device, characterized in that be equipped in top of the box It seals the first end cover of placed cavity, seal the second end cover of culture chamber.

9. the application method of any simulation Lang Chong of claim 1 to 8 and wind friction culture integrated device, characterized in that It the following steps are included:

(1) plant is placed on plant box, culture solution is added into cabinet；

(2) agitating shaft is shaken, so that water flow and air-flow constantly rush at plant, and then realizes and wind friction is fitted to the unrestrained punch die of plant Simulation.