NL9301865A - Two-component tissue and seedling culture bottle. - Google Patents

Description

Two-component tissue and seedling culture bottle.

The present invention relates to a tissue and seedling culture bottle, and more particularly to a two-component culture bottle with an upper portion that replaces the conventional narrow bottle mouth and cap and that an improved and integrally formed top air hole such that the culture bottle can be efficiently manufactured with less material and a simpler process, while the content of infected and damaged seedlings can be greatly reduced.

In order to be more easily exposed under the sunshine and to withstand the high temperature sterilization, most of the conventional tissue and seedling culture bottles are made of glass. In order to facilitate the sealing of such a culture bottle, the bottle usually has a smaller top opening and a wider bottom base and is integrally formed as shown in Fig. 1. In the tissue culture process, the filling of the culture medium, the sterilization, the transplantation of the seedling and the removal of the seedlings grown in the bottle from the culture medium effected by the bottle mouth which is about 3.5 cm in diameter. To avoid difficult bacteria-free sealing, the top opening of the culture bottle cannot be enlarged and must be some distance away from the seedlings grown in the bottle or the seedling base. All of these things are inconvenient to the tissue culture for the following reasons: a. Seedlings grown in the culture bottle are dense and fragile and therefore must be removed from the tweezer bottle by experienced and trained operators to reduce the percentage of damaged seedlings; b. the seedlings must be removed from the culture bottle with great care and therefore the removal is time consuming and not very efficient; c. the seedlings removed from the culture bottle are easily damaged and infected by bacteria or viruses which reduces the survival rate of the seedlings grown in the bottle and slows the growth of the seedlings at an early stage; and d. in order to prevent the loss of seedlings grown in the bottle, one can break the seed bottle and simultaneously take the seedlings all out of the bottle. However, this causes environmental pollution and increases the cost of cultivation.

In order to correct the aforementioned shortcomings that exist in the conventional tissue and seedling culture bottles, the applicant has a "seedling culture bottle" issued as Taiwan patent and filed in the U.S.A. with a Serial number 07 / 868,435. The bottle of the foregoing invention has been widely adopted by many professional seedling culture organizations and farms and has proven effective in meeting the functions intended by the invention and greatly eliminates the shortcomings in the conventional seedling culture bottles. In a series of consecutive and consistent observations, the Applicant believes that the critical key point for successful tissue and seedling culture is effective control, prevention, and interception of the invasion of bacteria and viruses into the culture bottle during culture. Among many factors of infection, the poor sealing of the top opening of the culture bottle and the air ventilation holes in the culture bottle cap is an important one. I.e. there are other drawbacks existing in the conventional culture bottles over the above: 1. For a conventional culture bottle 1, when it is filled with the culture medium 11 and is exposed to high temperature sterilization or is exposed to and heated with the sunshine, the air forms inside the bottle, a pressurized gas 12 which applies pressure to the bottle cap 13 and pushes it outward, forming a gap 14 between the cap and the bottle mouth. The slit 14 is an entrance for bacteria and viruses to the culture medium.

2. The conventional culture bottle 1 usually has a top opening, a cap, and all air vents in the cap are facing upward. Apart from the cap 13, which can be infected by the bacteria and viruses due to the reason described in the top 1, a circle of cavity 15 at the connection of the bottle mouth 10 and the cap 13 also tends to are covered by accumulated dust or dirt and are a source of infection. A sheet of clear plastic cloth or cellophane is usually used to pack the cap 13 for effective sealing of the bottle mouth. This certainly increases the material costs.

The above drawbacks have not been considered in the prior invention and their upper portion has a structure similar to that of a conventional culture bottle.

The applicant has therefore attempted to develop an improved tissue and seedling culture bottle to avoid the above shortcomings and disadvantages that existed in the conventional culture bottles.

It is a primary object of the present invention to provide a two-component tissue and seedling culture bottle that has an upper portion that provides a single opening and an air outlet opening free of any grown dirt or dust so that the tissue and seedling culture can be performed on a easier and safer way.

Another object of the present invention is to provide the above bicomponent tissue and seedling culture bottle in which the top portion is integrally formed without any top bottle mouth in order to simplify the operating methods in culture and save the use of the bottle cap.

A further object of the present invention is to provide the above bicomponents tissue and seedling culture bottle in which a T-shaped air vent opening is formed on the top of the bottle to reduce the internal air pressure of the heated culture bottle and to prevent that dust or dirt from the building enters the air vent to allow the culture bottle to be sterilized and disinfected more effectively and to prevent bacteria and viruses from entering the bottle.

A more complete understanding of these and other features and advantages of the present invention will become apparent from a careful consideration of the following detailed description of certain embodiments illustrated in the accompanying drawings in which Figure 1 is a vertical section through a conventional tissue and seedling culture bottle; FIG. 2 is a vertical section of the bicomponent tissue and seedling culture bottle of the present invention; and FIG. 3 illustrates an embodiment of the present invention with a portion thereof removed to show the connection of the top and parts in a clearer manner.

Refer to Fig. 2. The present invention includes a conically-shaped top cover part 2 with a smaller closed top and a wider bottom opening with internal threads, and a barrel part 3 with an upwardly externally threaded opening and a closed bottom. The top cover part 2 may be firmly but releasably connected to the bottom barrel part 3 by screwing the internally threaded lower opening onto the externally threaded top opening of the barrel part 3. It will be understood that any other means of attachment may be used for releasably connecting the top portion 2 to the bottom portion 3 of the present invention. A ring of soft rubber sealing material 5 can be used as a gasket between the connection of the top part 2 and the part 3 to effectively seal the entire connected bottle. The full height of the bottom section 3 is always greater than what is needed to fill enough culture medium 4.

The top portion 2 of the present invention can be made of glass, PC, PET, or other transparent or translucent plastic materials, depending on the plants to be grown and other practical necessities. The bottom part 3 can be made of glass, PC, PET, or other plastic materials.

When the top portion 2 is injection molded, a portion thereof is allowed to have a greater thickness so that a substantially T-shaped air vent 7 with a vertical air passage 71 and two horizontal air passages 72 is formed therein simultaneously the top portion being injection molded, but it can also be formed by drilling after the top portion 2 is formed. The vertical air passage 71 of the air vent opening 7 is centered in the closed top portion with its open end facing downwardly towards the bottle and has a depth of about two-thirds the thickness of the closed top portion of the top portion 2. The two horizontal air passages 72 are in communication with the vertical air passage 71 and are placed symmetrically on each of two opposite sides of the vertical air passage 71 at the same height so that they extend straight through the top portion of the top portion 2 to communicate with the outside .

Fig. 3 illustrates an embodiment of the present invention. In order to use the tissue and seedling culture bottle of the present invention, the top portion 2 is first removed from the bottom portion 3, then the procedures of filling the culture medium 4, high temperature sterilization, and placing the seeds are performed; after that, the horizontal air passages 72 of the T-shaped air vent 7 at the top of the top portion 2 are filled with sterilized absorbent cotton 8 to prevent bacteria and viruses from entering the culture bottle through the air vent 7. When the buttons have grown and can be transplanted, the culture bottles are moved to a bacteria-free chamber to separate the upper section 2 from the lower section 3. Then the buds are carefully removed from the lower section 3 with tweezers and transplanted to another seedling culture flask culture medium.

When the bottom portion 3 is filled with the culture medium 4, sterilized at high temperature and sown, the seeds in a culture bottle closed are very similar to an integrally formed bottle with only one top air vent. From the T-shaped air vent 7 at the top of the upper portion 2, the high-pressure gas generated during the high temperature sterilization or exposure to the sunshine is allowed to escape through the vertical air passage 71, the horizontal air passages 72, and the sterilized absorbent cotton 8 in the air passages 72. In this way, the bottle-grown seedlings 6 are always protected under a bacteria-free condition during their growth and transplantation and therefore have a higher survival rate.

It will be apparent from the above description that the bicomponents tissue and seedling culture bottle of the present invention has the following improvements: 1. No cap is required for the culture bottle; 2. The procedures for seeding the culture are simplified; 3. Material and costs required for the breeding bottle have been reduced; and 4. Infections from bacilli and viruses can be effectively prevented.

While the present invention has been described with a degree of accuracy, the present description is made by way of example and changes in details of the structure can be made without leaving the spirit of it.

Claims (4)

A two-component tissue and seedling culture bottle, comprising: a conically shaped top cover part with a smaller closed top part and a wider bottom opening; and a vessel portion for containing culture medium therein and adapted for releasably and tightly connecting to said top lid portion to said bottom opening thereof; said top cover portion being characterized by an air vent opening formed on said top portion thereof; said air vent consisting of a vertical air passage centered on said top portion and at least one horizontal air passage placed on the sides of said vertical air passage so that said horizontal passage (s) is in communication with said vertical air passage at one end and with the outside air at the other end, allowing air or gas produced in said culture bottle during seedling culture or growth in said culture bottle successfully escapes this air ventilation while preventing bacteria or viruses from entering this culture bottle and the survival rate of said culture plants in said culture bottle can be increased. A bicomponent tissue and seedling culture bottle according to claim 1, wherein said vertical air passage and said horizontal air passages together form a T-shaped air vent. The bicomponent tissue and seedling culture bottle of claim 1, wherein a soft rubber seal is placed on a joint of said top cover part and said barrel part to enhance its tight seal. Bicomponent tissue and seedling culture bottle according to claim 1, wherein said top cover part and said bottom part are strongly connected to each other by means of packing elements.