TWM614676U - Improved structure of cultivating receptacle - Google Patents
Improved structure of cultivating receptacle Download PDFInfo
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- TWM614676U TWM614676U TW110202026U TW110202026U TWM614676U TW M614676 U TWM614676 U TW M614676U TW 110202026 U TW110202026 U TW 110202026U TW 110202026 U TW110202026 U TW 110202026U TW M614676 U TWM614676 U TW M614676U
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- Prior art keywords
- container
- culture
- perforation
- film
- creation
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- 239000012528 membrane Substances 0.000 claims abstract description 15
- 230000008635 plant growth Effects 0.000 claims abstract 2
- 239000001963 growth medium Substances 0.000 claims description 7
- 238000001914 filtration Methods 0.000 claims description 5
- 239000000463 material Substances 0.000 claims description 4
- 238000007789 sealing Methods 0.000 description 22
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 11
- 230000035699 permeability Effects 0.000 description 8
- 239000002609 medium Substances 0.000 description 7
- 238000000034 method Methods 0.000 description 7
- 238000010586 diagram Methods 0.000 description 6
- 230000000694 effects Effects 0.000 description 4
- 238000009423 ventilation Methods 0.000 description 4
- 241000894006 Bacteria Species 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 3
- 238000003860 storage Methods 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- 239000011324 bead Substances 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 230000012010 growth Effects 0.000 description 1
- 239000004750 melt-blown nonwoven Substances 0.000 description 1
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical class C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 description 1
- 239000004745 nonwoven fabric Substances 0.000 description 1
- 230000008636 plant growth process Effects 0.000 description 1
- 239000002759 woven fabric Substances 0.000 description 1
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- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
- Apparatus Associated With Microorganisms And Enzymes (AREA)
Abstract
本創作係一種培養容器之改良,主要係於容器的側壁設有一個以上的穿孔,並在穿孔外圍結合透氣膜而覆蓋,俾可供培養基、植栽或生物填裝後,於上方開口進行封膜,以利植栽或生物在容器中受到保護而生長。 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
本創作係有關於一種容器,尤指一種生物培養的容器。 This creation is about a kind of container, especially a kind of biological culture container.
培養容器大多係以一內凹如皿形或杯形的容器為主,具有供培養基填裝後進行封膜的作用,一般培養基在填裝入培養容器後就會經由封膜(或封蓋)的程序而販售,因此使用者購買後都必須在無菌環境中將封口膜撕開後才能再植入植栽或生物,並且再度進行封膜的過程,以防外界灰塵、細菌入侵。 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.
因此可知,一般培養容器在填裝、運送到第一次使用的過程中會歷經兩次的封膜,因此封口膜選擇具有透氣設計的結構或材質時,相對會提高許多成本,而且一般利用培養基進行植栽培養的都是屬於大量生產,因此擺放培養容器必須有廣闊的空間及層架,然而又限於封口膜的透氣性而造成培養容器間不可直接堆疊的問題(直接堆疊時,上方的培養容器會覆蓋遮蔽下方封口膜的透氣能力),所以極為佔用空間。再者,由於封口膜具有透氣結構設計時,其表面的平整度較差,更容易在搬運過程中受到異物刮損而破裂。 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.
另者,由於培養容器中的培養基含有水份,而在植栽生長過程中也會加速培養容器中產生大量的水蒸氣,進而附著在封口膜的底面形 成不易滴落的水珠(雖然封口膜具有透氣性,但限於必須發揮濾菌效果的功能,所以透氣性並不會很高),因此一旦在封口膜底面形成水珠就更會阻礙透氣性,造成透氣性喪失的缺點。 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.
本創作人鑑於上述之問題,深覺培養容器在植入植栽或生物後,適當的提供透氣性是極為必須的,但習用設置在封口膜的透氣結構卻會因為水蒸氣的產生就造成失效,因此遂以其多年專業從事培養基填充的經驗,積極研發改良,在各方條件的審慎考量下,終於開創出本結構之組成,將可完全解決習用之各項問題。 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.
本創作係一種培養容器之改良,主要係於容器的側壁設有一個以上的穿孔,並在穿孔外圍結合透氣膜而覆蓋,因此在實施後將可提供下述之效能: 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:
由於本創作係令容器的側壁設有一個以上的穿孔,並在穿孔外圍結合透氣膜而覆蓋(可經由熔接或黏貼透氣膜等各種習知手段,將透氣膜覆蓋結合於穿孔),因此培養容器在未填裝培養基之前可以重疊存放,而在填裝培養基、植入植栽或生物並封膜後,由於透氣膜係設置在培養容器的側壁處,所以培養容器之間仍可以直接堆疊,完全不影響透氣性。 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.
本創作的培養容器由於是將透氣膜的結構設置在側壁,所以當內部產生水蒸氣向上散發時,凝結的水珠是附著在封口膜的底面,並不會造成水滴覆蓋透氣膜的問題,再者,本創作培養容器係可具有複數透氣膜的設置,所以空氣的流通性可以大幅提高,有效降低水珠的產生。 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:容器 1: container
11:穿孔 11: Piercing
2:透氣膜 2: Breathable membrane
3:培養基 3: Medium
4:植栽 4: Planting
5:封口膜 5: Parafilm
10:培養容器 10: Cultivation vessel
〔圖1〕係本創作之容器結構圖。 [Figure 1] is the container structure diagram of this creation.
〔圖2〕係本創作之容器結構外觀圖。 [Figure 2] is the appearance diagram of the container structure of this creation.
〔圖3〕係本創作培養容器之組成圖。 [Figure 3] is the composition diagram of the creative culture container.
〔圖4〕係本創作實施之透氣示意圖。 [Figure 4] is a schematic diagram of ventilation for the implementation of this creation.
〔圖5〕係本創作再一實施結構之透氣示意圖。 [Figure 5] is a schematic diagram of the ventilation of another implementation structure of this creation.
為使 貴審查人員能確實明瞭本創作之結構組成及其所能達成之功能效益,餘下,茲配合圖式列舉實施例,詳細介紹說明如后: 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:
本創作係一種培養容器之改良,主要係於容器1的側壁設有一個以上的穿孔11,並在穿孔11外圍結合透氣膜2而覆蓋(如圖1、2所示),俾可供培養基3、植栽4或生物填裝後,於容器1上方開口以封口膜5進行封膜(或封蓋(如圖3所示)),以利植栽4或生物在容器1中受到保護而生長。
This creation is an improvement of the culture container. It is mainly because more than one
經由上述本創作之結構設計可知,由於本創作的培養容器10係令容器1的側壁具有一個以上的穿孔11,且在穿孔11外圍結合透氣膜2而覆蓋(依結合方式的不同,透氣膜2尺寸可等於或大於穿孔11尺寸,且結合的手段可為習知的熔接、黏貼、黏固……等),因此一旦穿孔11結合透氣膜2後,由穿孔11透氣的空氣只能經由透氣膜2流通,所以該透氣膜2係以濾菌、透氣的材質所製成(例如具靜電濾菌不織布、活性碳纖維平織布層、濾菌熔噴不織布……等)。
It can be seen from the above-mentioned structural design of this creation that the
因此本創作於實施時,容器1在未填裝培養基3之前不僅可
以重疊存放、方便收藏,而在填裝培養基3、植入植栽4或生物並經由封口膜5封膜後(如圖4所示),由於透氣膜2係設置在培養容器10側壁的穿孔11處,所以培養容器10之間仍可以直接向上堆疊,讓位於容器1側壁的透氣膜2透氣效果完全不受到影響。
Therefore, when this creation is implemented, the
所以可知本創作改良後的效益在於免除了兩次封膜過程中對於習用封口膜特殊材質、結構的要求,不僅可以降低封膜成本,而且可以保持培養容器10上方封口膜5的平整度,不易受到異物抵觸而刮傷。再者,當培養基3和植栽4在生長過程中散發大量水蒸氣時,附著在封口膜5底面的水珠完全不會影響到側壁透氣膜2的透氣性,再加上透氣膜2可具有一個以上的設置數量,更可利於透氣時的空氣流通效果(如圖4所示,習用透氣封口膜即使增加透氣面積,因為只能位於容器上方提供透氣而已,空氣流通效果是極低的),有效降低水珠的產生。
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
1:容器 1: container
2:透氣膜 2: Breathable membrane
3:培養基 3: Medium
5:封口膜 5: Parafilm
10:培養容器 10: Cultivation vessel
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TW110202026U TWM614676U (en) | 2021-02-24 | 2021-02-24 | Improved structure of cultivating receptacle |
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TW110202026U TWM614676U (en) | 2021-02-24 | 2021-02-24 | Improved structure of cultivating receptacle |
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- 2021-02-24 TW TW110202026U patent/TWM614676U/en not_active IP Right Cessation
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