CN205040386U - Modular vegetation bottle - Google Patents

Abstract

The utility model discloses a modular vegetation bottle, it includes from lower to upper in proper order, a base, the base axial extension branch sleeve portion that makes progress, a sealed endotheca in in the branch sleeve portion and have a first barrel that the from bottom to top scales up the scale gradually, a sealed stack is in the second barrel that the from bottom to top increases progressively the scale is gradually loaded onto and has to first barrel cover, one with second barrel spiral sealing connection's lid, wherein, it has a plurality of bleeder vents to distribute on the second barrel. Through the syntagmatic between base, first barrel, second barrel and the lid, make each part of bottle all can dismantle the separation, conveniently carry out independent washing, sterilize and deposit, and through with base and the bottom separation of first barrel, can be convenient for get the seedling and transplant, simultaneously, because it has a plurality of bleeder vents to distribute on the second barrel, can substitute the air in the growth bottle, and interior photosynthesis that vegetation went on and the respiration of bottle provides sufficient air in order to grow.

Description

Combined plant growth bottle

Technical field

The utility model relates to a kind of experimental provision, is specifically related to a kind of Combined plant growth bottle.

Background technology

Along with the development of modern biotechnology, plant Sterile Culture Methods Used is increasingly extensive in the application of plant science research and quick reproduction technique, and involved floristics covers majority of plants, e.g., and crops, forest, fruits and vegetables, traditional Chinese medicine etc.The container that current plant aseptic culture is commonly used mainly is summarized as non-removable blake bottle or the culture dish of different size, is substantially all simple bottle device structure, only can meets conventional plant aseptic culture needs.Also there are some defects: it is less that culture vessel is installed with space, cannot meet the research needs of the longer incubation time of the very fast plant of growth for some special plant science researchs; Because the bottleneck of current container used is all less than body, after the plant establishment of inoculation, root system easily intertwines, get seedling very inconvenience and easily damage root system.And existing culture vessel does not attach scale, the record needs to plant plant height and root growth of certain plants scientific research under aseptic condition cannot be met.

Utility model content

For solving problems of the prior art, the utility model provides a kind of combined type detachable and is convenient to the plant growth bottle of observed and recorded.

A kind of Combined plant growth bottle described in the utility model, for observing plant height and the root growth situation of plant, it comprises from lower to upper successively,

One pedestal, described pedestal axially upwardly extends a spider portion;

To be placed in described spider portion in one sealing and there is the first cylindrical shell increasing progressively scale from bottom to top gradually;

One sealing is superimposed upon described first barrel jacket and loads onto and have the second cylindrical shell increasing progressively scale from bottom to top gradually;

One lid be connected with described second cylindrical shell helixseal;

Wherein, described second cylindrical shell is distributed with multiple air-vent.

Preferably, described second cylindrical shell is longitudinally evenly distributed with multiple air-vent.

Preferably, on described second cylindrical shell, the opposite side of relatively described air-vent is also provided with the air-vent of convection current.

Preferably, on described second cylindrical shell, hoop is distributed with multiple air-vent.

Preferably, described lid is provided with top air-vent.

Preferably, described air-vent or top air-vent are equipped with bacteriological filtration film.

Preferably, described spider portion has friction inwall, and one end, described first cylindrical shell relatively described spider portion has friction outer wall, and the internal diameter of described friction inwall is equal with the external diameter of described friction outer wall.

Preferably, inside one end of relative second cylindrical shell of described first cylindrical shell, there is the first chamfering rubbing surface, outside one end of relative first cylindrical shell of described second cylindrical shell, there is the second chamfering rubbing surface, the angle of inclination of described second chamfering rubbing surface and the angle of inclination complementation of described first chamfering rubbing surface.

Preferably, sealed by agar between described pedestal and the first cylindrical shell, between the first cylindrical shell and the second cylindrical shell.

Preferably, sealed by sealed membrane between described pedestal and the first cylindrical shell, between the first cylindrical shell and the second cylindrical shell.

Combined plant growth bottle described in the utility model, by the syntagmatic between pedestal, the first cylindrical shell, the second cylindrical shell and lid, makes bottle each several part all detachably be separated, conveniently carries out independent cleaning, sterilizing and deposit; And by pedestal is separated with the first cylinder body bottom, can be convenient to get transplantation of seedlings; Simultaneously, due to described second cylindrical shell being distributed with multiple air-vent, air in growth bottle can be substituted, the photosynthesis carried out for the plant growth in growth bottle and respiration provide sufficient air, and the problem of the black corruption of the plant avoiding gas permeability stronger, and the scale of the upper mark of the first cylindrical shell and the second cylindrical shell can herborization growth height, be convenient to real-time record.

Accompanying drawing explanation

Fig. 1 is the structural representation of Combined plant described in the utility model growth bottle;

Fig. 2 is another structural representation of Combined plant described in the utility model growth bottle;

Fig. 3 is the structural representation of pedestal described in the utility model;

Fig. 4 is the structural representation of the first cylindrical shell described in the utility model;

Fig. 5 is the structural representation of the second cylindrical shell described in the utility model;

Fig. 6 is the structural representation of lid described in the utility model.

Embodiment

Clearly understand to make the purpose of this utility model, technical scheme and advantage, below in conjunction with drawings and Examples, the utility model is further elaborated, be to be understood that, specific embodiment described herein only in order to explain the utility model, and is not used in restriction the utility model.

The utility model provides a kind of Combined plant growth bottle, for observing height of seedling and the root growth situation of plant, as shown in Figure 1, it comprises pedestal 10, first cylindrical shell 20, second cylindrical shell 30 and lid 40 from lower to upper successively, and described pedestal 10 axially upwardly extends a spider portion 11; Be placed in described spider portion 11 in described first cylindrical shell 20 seals, its barrel is provided with and increases progressively scale gradually from bottom to top; Described second cylindrical shell 30 superposes seal combination with described first cylindrical shell 20, its barrel is also provided with and increases progressively scale gradually from bottom to top; Preferably, the initial scale of described second cylindrical shell 30 is identical with the maximum scale of described first cylindrical shell 20, and described lid 40 is connected with described second cylindrical shell 30 helixseal, wherein, described second cylindrical shell 30 is distributed with multiple air-vent 31.

In Fig. 1, described second cylindrical shell 30 is longitudinally evenly distributed with multiple air-vent 31, for substituting the air in growth bottle, the photosynthesis carried out for the plant growth in growth bottle and respiration provide sufficient air, avoid the black corruption of plant that gas permeability is stronger simultaneously.Preferably, on described second cylindrical shell 30, can also also be provided with the air-vent 31 of convection current by the opposite side of relatively described air-vent 31, by arranging the relative air-vent in both sides 31, make the air in growth bottle substitute speed and accelerating, ensureing the normal growth of plant.

For making that there is in growth bottle good air circulation effect, as shown in Figure 2, on described second cylindrical shell 30, multiple air-vent 31 can also be distributed with by hoop.Setting like this, enables air circulate in all directions, avoids indoor air convection direction and the inconsistent problem causing cross-ventilation effect to reduce of bottle air-vent 31 pairs of flow path directions.

Further, the middle part of described lid 40 is also provided with top air-vent 41, by arranging top air-vent 41, optimizing the air circulation efficiency in biological bottle further, ensureing the normal growth of plant.

For reducing the lethality that plant is caused due to extraneous bacterium, can also described air-vent 31 and top air-vent 41 all on bacteriological filtration film is set, described bacteriological filtration film can enter in growth bottle by the extraneous bacterium of barrier, but the circulation of air can not be stoped, therefore, set up described bacteriological filtration film and can provide sterile growth environment for bottle implants, improve the survival rate of plant.

Concrete, as shown in Figure 3 and Figure 4, described spider portion 11 has friction inwall 12, described first one end, cylindrical shell 20 relatively described spider portion 11 has friction outer wall 21, the internal diameter of described friction inwall 12 is equal with the external diameter of described friction outer wall 21, therefore, between the first cylindrical shell 20 with described pedestal 10 for rubbing surface is connected.

As shown in Figure 4 and Figure 5, inside one end of relative second cylindrical shell 30 of described first cylindrical shell 20, there is the first chamfering rubbing surface 22, outside one end of relative first cylindrical shell 20 of described second cylindrical shell 30, there is the second chamfering rubbing surface 32, the angle of inclination of described second chamfering rubbing surface 32 and the angle of inclination complementation of described first chamfering rubbing surface 22.Therefore, between the first cylindrical shell 20 with the second cylindrical shell 30 also for rubbing surface is connected.

Rubbing surface is adopted to be connected between described pedestal 10 with the first cylindrical shell 20, between the first cylindrical shell 20 with the second cylindrical shell 30, convenient when making to dismantle between each several part, avoid pressurized seal to be difficult to be separated, the problem that cannot dismantle.Simultaneously in order to ensure the sealing property between each several part connecting portion, sealed by agar between described pedestal 10 and the first cylindrical shell 20, between the first cylindrical shell 20 and the second cylindrical shell 30, preferably, sealed membrane can also be adopted to seal, or adopt agar and sealed membrane to seal simultaneously.

As shown in Figure 5 and Figure 6, described second cylindrical shell 30 is provided with external screw thread 33 away from one end of the first cylindrical shell 20, the madial wall of described lid 40 is provided with the internal thread 42 matched with described external screw thread 33, and described internal thread 42 coordinates with external screw thread 33 sealing realized between the second cylindrical shell and lid 40.

Further, the axial height of described first cylindrical shell 20 is less than the axial height of the second cylindrical shell 30, by arranging lower by the height of the first cylindrical shell 20, can be convenient to inwardly to transplant seed or to explant etc.And the second cylindrical shell 30 has the specification of multiple differing heights, by with the second cylindrical shell 30 changing differing heights, make the whole height of growth bottle realize adjustable object, the demand of the plant of different growing height can be adapted to.

High temperature, autoclaving process need be carried out in advance to bottle each several part during use.Aseptically, be the sterilizing agar sealing of 1%-2% with concentration ratio, edge, available sealed membrane sealed interface place after agar solidification, then pours into medium in the first cylindrical shell 20 inner chamber.

After culture medium solidifying in the first cylindrical shell 20 inner chamber, seed or explant or seedling is inoculated under aseptic condition, before connection first cylindrical shell 20 and the second cylindrical shell 30, first aseptically, close with air-vent 31 sealing that the diameter in the middle part of the second cylindrical shell 30 wall body is 5mm by sealed membrane or bacteriological filtration film, then the second cylindrical shell 30 is superimposed upon on the first cylindrical shell 20, and adopts edge, sealed membrane sealed interface place.After the first cylindrical shell 20 is connected with the second cylindrical shell 30, under aseptic condition, the external screw thread cooperation of the internal thread of lid 40 being aimed at the second cylindrical shell 30 screws.

When plant growth, by the first cylindrical shell 20 scale and the second cylindrical shell 30 calibration record plant height of seedling and root growth situation.Need to take out plant to carry out transplanting or investigate, when sampling, be detachably separated pedestal 10 and the first cylindrical shell 20, with apparatus such as elongated dissecting needles after medium is peeled off by the first cylindrical shell 20 inwall, from the first cylindrical shell 20, plant is taken out.

Combined plant growth bottle described in the utility model, by the syntagmatic between pedestal 10, first cylindrical shell 20, second cylindrical shell 30 and lid 40, makes bottle each several part all detachably be separated, conveniently carries out independent cleaning, sterilizing and deposit; And described first cylindrical shell 20 is highly lower, be convenient to inwardly to transplant seed or to explant etc., by by pedestal 10 and the first cylindrical shell 20 bottom part from, can be convenient to get transplantation of seedlings; Simultaneously, due to described second cylindrical shell 30 being distributed with multiple air-vent 31, air in growth bottle can be substituted, the photosynthesis carried out for the plant growth in growth bottle and respiration provide sufficient air, and the problem of the black corruption of the plant avoiding gas permeability stronger, and the scale of the upper mark of the first cylindrical shell 20 and the second cylindrical shell 30 can herborization growth height, be convenient to real-time record.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a Combined plant growth bottle, for observing plant height and the root growth situation of plant, it is characterized in that, the bottle of described growth bottle comprises from lower to upper successively,

One pedestal (10), described pedestal (10) axially upwardly extends a spider portion (11);

To be placed in one sealing in described spider portion (11) and there is the first cylindrical shell (20) increasing progressively scale from bottom to top gradually;

One sealing is superimposed upon described first cylindrical shell (20) cover and loads onto and have the second cylindrical shell (30) increasing progressively scale from bottom to top gradually;

One lid (40) be connected with the helixseal of described second cylindrical shell (30);

Wherein, described second cylindrical shell (30) is distributed with multiple air-vent (31).

2. Combined plant growth bottle according to claim 1, is characterized in that, described second cylindrical shell (30) is upper is longitudinally evenly distributed with multiple air-vent (31).

3. Combined plant growth bottle according to claim 2, it is characterized in that, on described second cylindrical shell (30), the opposite side of relatively described air-vent (31) is also provided with the air-vent (31) of convection current.

4. Combined plant growth bottle according to claim 1, is characterized in that, the upper hoop of described second cylindrical shell (30) is distributed with multiple air-vent (31).

5. Combined plant growth bottle according to claim 1, it is characterized in that, described lid (40) is provided with top air-vent (41).

6. Combined plant growth bottle as claimed in any of claims 1 to 5, is characterized in that, described air-vent (31) or top air-vent (41) are equipped with bacteriological filtration film.

7. Combined plant growth bottle according to claim 1, it is characterized in that, described spider portion (11) has friction inwall (12), described first cylindrical shell (20) relatively described spider portion (11) one end has friction outer wall (21), and the internal diameter of described friction inwall (12) is equal with the external diameter of described friction outer wall (21).

8. Combined plant growth bottle according to claim 7, it is characterized in that, inside one end of relative second cylindrical shell (30) of described first cylindrical shell (20), there is the first chamfering rubbing surface (22), outside one end of relative first cylindrical shell (20) of described second cylindrical shell (30), there is the second chamfering rubbing surface (32), the angle of inclination of described second chamfering rubbing surface (32) and the angle of inclination complementation of described first chamfering rubbing surface (22).

9. Combined plant growth bottle according to claim 8, it is characterized in that, sealed by agar between described pedestal (10) and the first cylindrical shell (20), between the first cylindrical shell (20) and the second cylindrical shell (30).

10. Combined plant growth bottle according to claim 8, it is characterized in that, sealed by sealed membrane between described pedestal (10) and the first cylindrical shell (20), between the first cylindrical shell (20) and the second cylindrical shell (30).