CN109392686A - The simulation of hygrophyte habitat and culture integrated box and application method - Google Patents

Abstract

The simulation of hygrophyte habitat and culture integrated box and application method, are simulated for the growing environment to hygrophyte.Water inlet pipe and outlet pipe are equipped on cabinet, vertical plate is equipped in the inner cavity of cabinet, the inner cavity of cabinet is divided into former and later two cavitys by vertical plate, it is fixed on vertical plate that there are four pipe clamps, opening is equipped on the front side wall of pipe clamp, it is equipped with lower opening on the rear wall and vertical plate of second, third pipe clamp lower part of right-to-left number, upper hole is equipped on the rear wall and vertical plate on right-to-left number third, the 4th pipe clamp top；Plant pipe, and right-to-left are placed in pipe clamp, plant pipe top of the plant pipe all and in the 4th pipe clamp in the plant pipe lower part, third pipe clamp in second pipe clamp is equipped with through-hole；It is equipped with wave generating unit in the front side cavity of cabinet, the air duct being connected to upper hole is equipped on the rear wall of vertical plate, air duct is connect by air hose with blower.The present invention can be realized effectively and be simulated to hygrophyte growing environment.

Description

The simulation of hygrophyte habitat and culture integrated box and application method

Technical field

The present invention relates to hygrophyte culture technique field, specifically a kind of hygrophyte habitat simulation and culture one Body case and application method.

Background technique

Wetland plant is important and unique living resources, in Wetland Biodiversity protection and wetlands ecosystems function Maintenance aspect plays a significant role.Lang Chong and wind friction are that wetland is universal and distinctive natural phenomena, the growth to wetland plant There is important influence with Morphological plasticity.Wetland plant is mostly used field naturally raw by the research of Lang Chong and wind frictional influence at present Border is tested in situ, due to lacking the research that related equipment limits Lang Chong and wind friction influences wetland plant.Therefore it needs A kind of hygrophyte habitat is wanted to simulate and culture integrated box, the function of culture and simulation Lang Chong and wind friction with wetland plant Can, while lasting culture wetland plant dynamic observe its to Lang Chong and wind friction react and response, for observation wetland The research of plant growth adaptive character provides advantage.

Summary of the invention

The purpose of the present invention is to provide a kind of simulation of hygrophyte habitat and culture integrated box and application method, for pair The growing environment of hygrophyte is simulated, to facilitate the increment study of hygrophyte.

The technical scheme adopted by the invention to solve the technical problem is that: the simulation of hygrophyte habitat and culture integrated box, It includes cabinet, water inlet pipe and outlet pipe is equipped on cabinet, characterized in that cabinet is Transparent Parts, is set in the inner cavity of cabinet There is vertical plate, the inner cavity of cabinet is divided into former and later two cavitys by vertical plate, and fixation is set gradually there are four right-to-left on vertical plate Pipe clamp is equipped with opening, on the rear wall and vertical plate of second, third pipe clamp lower part of right-to-left number on the front side wall of pipe clamp Equipped with lower opening, upper hole is equipped on the rear wall and vertical plate on right-to-left number third, the 4th pipe clamp top；It is placed in pipe clamp There are plant pipe, and right-to-left, the plant pipe in the plant pipe lower part, third pipe clamp in second pipe clamp is all and the 4th Plant pipe top in pipe clamp is equipped with through-hole；

It is equipped with wave generating unit in the front side cavity of cabinet, the wind being connected to upper hole is equipped on the rear wall of vertical plate Road, air duct are connect by air hose with blower.

Further, wave generating unit includes the motor being fixed on cabinet exterior, is rotatably installed in cabinet front chamber Plectrum internal and that the shaft of rotation is driven by motor, is fixed in shaft.

Further, the opening is C-shaped configuration, and is open and runs through the upper and lower surfaces of pipe clamp.

Further, the plant pipe in pipe clamp includes the first plant pipe, the second plant pipe and third plant pipe, and first, the Two and third plant pipe be transparent tubular structure, and on the side wall of second plant pipe one end be equipped with through-hole, third plant Through-hole is equipped on the entire side wall of strain pipe.

Further, plant plug is equipped in the first, second, and third plant pipe.

Further, the first, second, and third plant Guan Jun includes the top tube and down tube being threadedly coupled.

Further, the top of down tube be equipped with mounting ring, mounting ring extend into the inner cavity of upper tube and with upper pipe screw thread Connection, plant plug are arranged in mounting ring.

Further, plant plug is the flexible piece of circular ring shape.

Hygrophyte habitat simulation with culture integrated box application method, characterized in that it the following steps are included:

(1), plant is placed in the first, second, third plant pipe, and realizes that the clamping to plant is solid by plant plug It is fixed；

(2), the first, second, and third plant pipe is mounted on pipe clamp；

(3), culture solution is added into cabinet by water inlet pipe；

(4) starting motor rotates shaft, and wave is manufactured in cabinet；Start blower simultaneously, blasts sky in upward hole Gas；The plant in the first plant pipe is in environment with no wind, no waves at this time, and the plant in the second plant pipe, which is in calm, wave Or have in environment of the wind without wave, the plant in third plant pipe is in the environment for having wind to have wave.

The beneficial effects of the present invention are: hygrophyte habitat simulation provided by the invention and culture integrated box and user Method, can simulate under the practical growing environment of hygrophyte with no wind, no waves, it is calm have wave, have wind without wave, have wind have wave four kinds Environment, and then be conducive to the increment study of hygrophyte；And by the speed of the adjustable shaft rotation of motor, and then adjust wave The size of wave, to simulate the hygrophyte growth conditions under different wave sizes.It is the simulation box structure, simple, it can sufficiently simulate The growth of hygrophyte.

Detailed description of the invention

Fig. 1 is three-dimensional figure of the invention；

Fig. 2 is main view of the invention；

Fig. 3 is left view of the invention；

Fig. 4 is top view of the invention；

Fig. 5 is the three-dimensional figure of the first plant pipe；

Fig. 6 is the three-dimensional figure of the second plant pipe；

Fig. 7 is the three-dimensional figure of third plant pipe；

Fig. 8 is the front view of first pipe clamp of right-to-left number；

Fig. 9 is the front view of second pipe clamp of right-to-left number；

Figure 10 is the front view of right-to-left number third pipe clamp；

Figure 11 is the front view of the 4th pipe clamp of right-to-left number；

Figure 12 is the schematic diagram of the first plant pipe under another embodiment；

Figure 13 is the top view of down tube in Figure 12；

In figure: 1 cabinet, 11 water inlet pipes, 12 outlet pipes, 2 vertical plates, 21 pipe clamps, 22 are open, 23 lower opening, hole on 24, and 3 first Plant pipe, 31 upper tubes, 32 down tubes, 33 mounting rings, 4 second plant pipes, 41 through-holes, 5 third plant pipes, 6 shafts, 61 plectrums, 62 Motor, 7 plant plugs, 8 air ducts, 81 air hoses.

Specific embodiment

As shown in figure 1 to figure 13, the invention mainly comprises cabinet 1, vertical plate 2, pipe clamp 21, the first plant pipes 3, the second plant Pipe 4, third plant pipe 5, shaft 6, plectrum 61, air duct 8, air hose 81 and blower with reference to the accompanying drawing carry out the present invention detailed Description.

As shown in Figures 1 to 4, cabinet 1 is the transparent plastic article of cuboid, and the open top and cabinet of cabinet are hollow Structure is equipped with water inlet pipe 11 and outlet pipe 12 on the rear wall of cabinet, and water inlet pipe and outlet pipe are equipped with valve, to facilitate pipe The opening and closing on road.It is equipped with the vertical plate 2 vertically placed in the inner cavity of cabinet, vertical plate is transparent plastic article, and vertical plate is by the cavity of cabinet It is divided into front and back two parts.The pipe clamp 21 vertically placed is fixed on the front side wall of vertical plate, four pipe clamps are successively set from left to right It sets.Pipe clamp is the transparent configuration of strip, and the rear wall of pipe clamp is contacted and is fixedly connected with the front side wall of vertical plate.On the top of pipe clamp It is equipped with the opening 22 of C-shaped between portion and bottom, and is open and runs through the front side wall of pipe clamp.In four pipe clamps, in right-to-left number The rear wall and vertical plate of second, third pipe clamp lower part are equipped with lower opening 23, on the third of right-to-left number, the 4th pipe clamp The rear wall and vertical plate in portion are equipped with upper hole 24, and lower opening and upper hole are square hole.

The first plant pipe 3 is equipped in first pipe clamp of right-to-left number, in second pipe clamp of right-to-left number Equipped with the second plant pipe 4, third plant pipe 5 is equipped in the third pipe clamp of right-to-left number, the 4th of right-to-left number the The second plant pipe 4 is equipped in a pipe clamp.As shown in figure 5, the first plant pipe 3 is transparent plastic tube；As shown in fig. 6, second plants Strain pipe is also transparent plastic tube, and through-hole 41 is equipped on the side wall of second plant pipe one end；As shown in fig. 7, third plant pipe Also it is transparent plastic tube, is equipped with through-hole 41 on the entire side wall of third plant pipe.

When installation, the first, second, and third plant pipe is mounted in corresponding pipe clamp, the first, second, third plant pipe Lower surface and cabinet bottom between be equipped with gap, in order to the intracorporal culture solution of case enter the first, second, and third plant In pipe.The inner cavity of the several first plant pipes of right-to-left and cabinet are mutually indepedent, with the environment to rub with no wind, no waves；Right-to-left number Through-hole on first the second plant pipe is connected to the lower opening on second pipe clamp, to simulate the calm environment for having wave；From dextrad Through-hole on left several third plant pipes on third pipe clamp upper hole and lower opening be connected to, to simulate the environment for thering is wind to have wave； The upper Kong Liantong on through-hole and the 4th pipe clamp on second the second plant pipe of right-to-left number, to simulate the ring for having wind without wave Border.

Two cavitys in this way before and after vertical plate pass through upper hole, lower opening and second, third plant pipe on vertical plate and pipe clamp On through-hole be connected together.After the intracorporal culture solution liquid level of case forms wave, the side where wave to vertical plate is mobile, and Part culture solution enters on rear side of vertical plate after passing through the lower opening on through-hole and pipe clamp and vertical plate on second, third plant pipe In cabinet cavity, and then play the role of wave punching to the plant in second and third plant pipe.

On the rear wall of vertical plate be equipped with air duct 8, air duct tool there are two outlet, two outlet respectively with two on Kong Liantong, Air duct is equipped with air hose 81, and air hose is connect with blower, and blower can be set on cabinet rear wall, by blower, air hose to air duct Air is inside blasted, air passes through the through-hole after-blow on upper hole and second and third plant pipe to plant, plays wind-force to plant Effect.

To form wave in cabinet, it is rotatably equipped with shaft 6 in the front end of cabinet, is fixed with one on the outer wall of shaft A plectrum 61, is fixed with motor 62 on the outer wall of cabinet, and the output end and shaft of motor are connected.When motor work, shaft Rotation, and then plectrum stirs culture solution and forms it into wave.Motor, shaft and plectrum constitute wave generating unit.

For convenience of the fixation to plant, the plant plug of circular ring shape is equipped at the middle part of the first, second, third plant tube cavity 7, plant plug is flexible piece, such as rubber, sponge, realizes the clamping to plant by plant plug.

For convenience of gripping for plant, as shown in Figure 12 and Figure 13, the first plant pipe includes the upper tube 31 being arranged above and below With down tube 32, it is equipped with mounting ring 33 at the top of down tube, down tube is threadedly coupled by mounting ring with upper tube.Plant plugs in installation In the inner cavity of ring and the outer wall of plant plug and the inner wall of mounting ring are in close contact.In addition, second, third plant pipe also include it is upper, The upper tube 31 and down tube 32 of lower setting, also are provided with mounting ring 33 at the top of down tube, and mounting ring is threadedly coupled with upper tube, is being installed Plant plug is equipped in ring.

Application method of the invention is described below:

(1), plant is placed in the first, second, third plant pipe, and realizes that the clamping to plant is solid by plant plug It is fixed；

(2), the first, second, and third plant pipe is mounted on pipe clamp；

(3), culture solution is added into cabinet by water inlet pipe；

(4) starting motor rotates shaft, and wave is manufactured in cabinet；Start blower simultaneously, blasts sky in upward hole Gas；The plant in the first plant pipe is in environment with no wind, no waves at this time, and the plant in the second plant pipe, which is in calm, wave Or have in environment of the wind without wave, the plant in third plant pipe is in the environment for having wind to have wave.

Claims (9)

1. the simulation of hygrophyte habitat and culture integrated box, it includes cabinet, and water inlet pipe and outlet pipe are equipped on cabinet, special Sign is that cabinet is Transparent Parts, and vertical plate is equipped in the inner cavity of cabinet, and the inner cavity of cabinet is divided into former and later two cavitys by vertical plate, Fixed on vertical plate there are four the pipe clamps that right-to-left is set gradually, and opening are equipped on the front side wall of pipe clamp, in right-to-left number The rear wall and vertical plate of second, third pipe clamp lower part be equipped with lower opening, in right-to-left number third, the 4th pipe clamp top Rear wall and vertical plate are equipped with upper hole；Plant pipe, and right-to-left are placed in pipe clamp, under the plant pipe in second pipe clamp Plant pipe top of the plant pipe all and in the 4th pipe clamp in portion, third pipe clamp is equipped with through-hole；

It is equipped with wave generating unit in the front side cavity of cabinet, the air duct being connected to upper hole is equipped on the rear wall of vertical plate, Air duct is connect by air hose with blower.

2. hygrophyte habitat simulation according to claim 1 and culture integrated box, characterized in that wave generating unit packet In including the motor being fixed on cabinet exterior, being rotatably installed in cabinet front cavity and the shaft of rotation, fixation is driven by motor Plectrum in shaft.

3. hygrophyte habitat simulation according to claim 1 and culture integrated box, characterized in that the opening is C-shaped Structure, and be open and run through the upper and lower surfaces of pipe clamp.

4. hygrophyte habitat simulation according to claim 3 and culture integrated box, characterized in that the plant pipe in pipe clamp Including the first plant pipe, the second plant pipe and third plant pipe, the first, second, and third plant pipe is transparent tubulose knot Structure, and through-hole is equipped on the side wall of second plant pipe one end, through-hole is equipped on the entire side wall of third plant pipe.

5. hygrophyte habitat simulation according to claim 4 and culture integrated box, characterized in that in the first, second He Plant plug is equipped in third plant pipe.

6. hygrophyte habitat according to claim 5 simulation and culture integrated box, characterized in that first, second and the Three plant Guan Jun include the top tube and down tube being threadedly coupled.

7. hygrophyte habitat simulation according to claim 6 and culture integrated box, characterized in that set at the top of down tube There is mounting ring, mounting ring extend into the inner cavity of upper tube and is threadedly coupled with upper tube, and plant plug is arranged in mounting ring.

8. hygrophyte habitat simulation according to claim 5 and culture integrated box, characterized in that plant plug is circular ring shape Flexible piece.

9. the application method of the simulation of hygrophyte habitat described in claim 1 to 8 and culture integrated box, characterized in that it is wrapped Include following steps:

(1), plant is placed in the first, second, third plant pipe, and plant is gripped by the realization of plant plug；

(2), the first, second, and third plant pipe is mounted on pipe clamp；

(3), culture solution is added into cabinet by water inlet pipe；

(4) starting motor rotates shaft, and wave is manufactured in cabinet；Start blower simultaneously, blasts air in upward hole；This When the first plant pipe in plant be in environment with no wind, no waves, the plant in the second plant pipe, which is in calm, to be had wave or has wind In environment without wave, the plant in third plant pipe is in the environment for having wind to have wave.