TWM614676U - Improved structure of cultivating receptacle - Google Patents

Abstract

This creation is an improvement of the culture container, which is mainly to provide more than one perforation on the side wall of the container, and cover the perforation with a breathable film, so that it can be used for culture, planting or biological filling, and then the upper opening can be sealed. Membrane to facilitate the growth of plants or organisms under protection in a container.

Description

Improvement of culture vessel

This creation is about a kind of container, especially a kind of biological culture container.

Most of the culture container is a container with a concave shape such as a dish or cup. It has the function of sealing the film after filling the culture medium. Generally, the culture medium will be sealed (or capped) after being filled into the culture container. Therefore, users must tear off the sealing film in a sterile environment before replanting plants or organisms, and perform the sealing process again to prevent external dust and bacteria from invading.

Therefore, it can be seen that the general culture container undergoes two sealing films during the process of filling and transporting to the first use. Therefore, when the sealing film is selected with a structure or material with a gas-permeable design, a lot of costs will be relatively increased, and the culture medium is generally used Plants and cultivation are all mass production. Therefore, there must be a wide space and shelf for placing the culture containers. However, the air permeability of the sealing film causes the problem that the culture containers cannot be stacked directly (when directly stacked, the upper The culture container will cover and shield the air permeability of the sealing film below), so it takes up space very much. Furthermore, when the sealing film is designed with a breathable structure, the flatness of its surface is poor, and it is more likely to be scratched and broken by foreign objects during the handling process.

In addition, since the culture medium in the culture container contains water, it will also accelerate the production of a large amount of water vapor in the culture container during the plant growth process, which will then adhere to the bottom surface of the sealing film. Beads that are not easy to drip (although the sealing film is breathable, it is limited to the function of filtering bacteria, so the air permeability is not very high), so once water drops are formed on the bottom surface of the sealing film, it will hinder the air permeability. , Resulting in the shortcomings of loss of breathability.

In view of the above-mentioned problems, the creator deeply feels that after planting plants or organisms, it is extremely necessary to provide proper air permeability. However, the air-permeable structure commonly used in the sealing film will cause failure due to the generation of water vapor. Therefore, with his years of professional experience in medium filling, he actively researched and developed improvements. After careful consideration of various conditions, he finally created the composition of this structure, which will completely solve the problems of conventional use.

This creation is an improvement of the culture container, which is mainly because more than one perforation is provided on the side wall of the container, and the perforation is combined with a breathable film to cover the perforation. Therefore, after implementation, it will provide the following effects:

Since this creation makes the side wall of the container have more than one perforation, and the perforation is covered with a breathable film (the breathable film can be covered and combined with the perforation by various conventional means such as welding or pasting the breathable film), so the culture container It can be stacked and stored before the medium is filled, and after the medium is filled, plants or organisms are implanted, and the film is sealed, since the breathable film is arranged on the side wall of the culture container, the culture containers can still be stacked directly. Does not affect air permeability.

Since the culture container of this creation has a breathable membrane structure on the side wall, when water vapor is generated inside and radiates upward, the condensed water droplets are attached to the bottom surface of the sealing membrane, and will not cause the problem of water droplets covering the breathable membrane. In addition, the creative culture container system can be provided with a plurality of air-permeable membranes, so the air circulation can be greatly improved, and the generation of water droplets can be effectively reduced.

1: container

11: Piercing

2: Breathable membrane

3: Medium

4: Planting

5: Parafilm

10: Cultivation vessel

[Figure 1] is the container structure diagram of this creation.

[Figure 2] is the appearance diagram of the container structure of this creation.

[Figure 3] is the composition diagram of the creative culture container.

[Figure 4] is a schematic diagram of ventilation for the implementation of this creation.

[Figure 5] is a schematic diagram of the ventilation of another implementation structure of this creation.

In order to enable your reviewer to clearly understand the structure of this creation and the functional benefits it can achieve, for the rest, examples are listed in conjunction with the diagrams. The detailed description is as follows:

This creation is an improvement of the culture container. It is mainly because more than one perforation 11 is provided on the side wall of the container 1, and the perforation 11 is covered with a gas-permeable membrane 2 (as shown in Figures 1 and 2), which can be used for culture medium 3. , After planting 4 or organisms are filled, open the top of the container 1 with a sealing film 5 to seal the film (or cover (as shown in Figure 3)), so that the plants 4 or organisms are protected and grown in the container 1. .

It can be seen from the above-mentioned structural design of this creation that the culture container 10 of this creation makes the side wall of the container 1 have more than one perforation 11, and the perforation 11 is combined with a breathable membrane 2 to cover (depending on the combination method, the breathable membrane 2 The size can be equal to or larger than the size of the perforation 11, and the bonding method can be conventional welding, pasting, bonding, etc.), so once the perforation 11 is combined with the breathable film 2, the air permeable through the perforation 11 can only pass through the breathable film 2 circulates, so the breathable membrane 2 is made of bacteria-filtering and air-permeable materials (for example, non-woven fabric with electrostatic bacteria filtering, activated carbon fiber plain woven fabric layer, bacteria-filtering melt-blown non-woven fabric, etc.).

Therefore, when this creation is implemented, the container 1 can not only be used before the medium 3 is filled To overlap storage and convenient storage, and after filling the culture medium 3, implanting plants 4 or organisms, and sealing the film through the sealing film 5 (as shown in Figure 4), because the breathable film 2 is provided on the side wall of the culture container 10, the perforation There are 11 places, so the culture containers 10 can still be stacked directly upwards, so that the ventilation effect of the gas-permeable membrane 2 on the side wall of the container 1 is not affected at all.

Therefore, it can be seen that the improved benefit of this creation is to eliminate the requirement for the special material and structure of the conventional sealing film during the two sealing processes, not only can reduce the cost of the sealing film, but also can maintain the flatness of the sealing film 5 above the culture container 10, which is not easy Scratched by foreign objects. Furthermore, when the medium 3 and the plant 4 emit a large amount of water vapor during the growth process, the water droplets attached to the bottom surface of the sealing film 5 will not affect the air permeability of the side wall breathable membrane 2 at all. In addition, the breathable membrane 2 can have Setting more than one quantity is more conducive to the air circulation effect during ventilation (as shown in Figure 4, even if the conventional air-permeable sealing film increases the air-permeable area, it can only provide air permeability above the container, and the air-circulation effect is extremely low), Effectively reduce the production of water droplets.

1: container

2: Breathable membrane

3: Medium

5: Parafilm

10: Cultivation vessel

Claims (2)

An improvement of a culture container, which is mainly to provide more than one perforation on the side wall of the container, and cover the perforation with a breathable film, so that it can be filled with culture media, plants or organisms, and then open at the top of the container to seal The film is sealed to facilitate the protection and growth of plants or organisms in the container. The improvement of the culture container according to claim 1, wherein the air-permeable membrane is made of bacteria-filtering and air-permeable material.

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