JP3370364B2 - Manufacturing and use of molded filter containers for tea - Google Patents
Manufacturing and use of molded filter containers for teaInfo
- Publication number
- JP3370364B2 JP3370364B2 JP34832992A JP34832992A JP3370364B2 JP 3370364 B2 JP3370364 B2 JP 3370364B2 JP 34832992 A JP34832992 A JP 34832992A JP 34832992 A JP34832992 A JP 34832992A JP 3370364 B2 JP3370364 B2 JP 3370364B2
- Authority
- JP
- Japan
- Prior art keywords
- flange
- filter container
- extraction
- tea
- molded
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Apparatus For Making Beverages (AREA)
- Filtering Materials (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明はお茶用成形フィルタ容器
の製造法および使用法に関し、さらに詳しくは保形性お
よび剛性に優れ、口径の異なる既存の容器に装着して紅
茶、緑茶などの成分抽出を簡便に行える、抽出部の全面
に被抽出液を接触させて抽出を行うお茶用成形フィルタ
容器の製造法および使用法に関する。The present invention relates to an manufacturing method and use of the shaping filter container tea, more particularly excellent in shape retention and rigidity, tea and attached to different existing containers diameter, which green tea The entire surface of the extraction part , which allows easy component extraction
The present invention relates to a method for producing and using a molded filter container for tea in which a liquid to be extracted is brought into contact with an extract to perform extraction .
【0002】[0002]
【従来の技術】従来、紅茶、緑茶、コーヒーなどを簡便
に抽出する方法としては、紙、織物、不織布などのシー
ト状フィルタ材を小袋にし、該袋に紅茶、緑茶、コーヒ
ーなどの被抽出物を充填して抽出するティーバック方式
が一般的によく知られている。通常、ティーバック方式
は既存の容器の中に上記被抽出物を充填した小袋を入
れ、熱湯を注ぐことにより、簡便に抽出することができ
る反面、次のような問題がある。すなわち、紅茶、緑
茶、コーヒーなどの被抽出物が、フィルタ小袋の内部に
詰め込まれているため、フィルタ内部の容積に余裕がな
く、抽出液を注いでも被抽出物が膨潤し、伸長、拡大す
る等の現象が制約される。したがって、小袋の内部の被
抽出物はほとんど移動せず、短時間に有効な抽出を行う
ことが困難であり、また抽出時間を長くすると苦みや渋
みが出やすく風味を損なうなどの問題がある。2. Description of the Related Art Conventionally, as a method for easily extracting tea, green tea, coffee, etc., a sheet-shaped filter material such as paper, woven fabric, non-woven fabric, etc. is made into a small bag, and the bag to be extracted with tea, green tea, coffee, etc. The tea bag method of filling and extracting is generally well known. Usually, the tea bag system can be easily extracted by putting a small bag filled with the above-mentioned substance to be extracted in an existing container and pouring hot water, but it has the following problems. That is, since the extractables such as black tea, green tea and coffee are packed inside the filter pouch, there is no room in the volume inside the filter, and the extractables swell, expand and expand even when the extract is poured. Such phenomena are restricted. Therefore, the substance to be extracted inside the pouch hardly moves, and it is difficult to perform effective extraction in a short time. Further, if the extraction time is lengthened, bitterness and astringency are likely to occur and the flavor is impaired.
【0003】[0003]
【発明が解決しようとする課題】本発明の課題は、上記
従来技術の問題点を解決し、被抽出物の膨潤、伸長、拡
大等が容易であり、被抽出物が熱湯などの抽出液と充分
接触でき、かつ口径の異なる既存の容器に容易に装着で
きる、保形性および剛性に優れた、抽出部の全面に被抽
出液を接触させて抽出を行うお茶用成形フィルタ容器の
製造法および使用法を提供することにある。The object of the present invention is to solve the above-mentioned problems of the prior art and to facilitate the swelling, extension, expansion, etc. of the substance to be extracted, and the substance to be extracted is an extract such as boiling water. sufficiently be contacted, and can be easily attached to different existing containers diameter, excellent shape retention and rigidity, Hi抽the entire surface of the extractor
It is an object of the present invention to provide a method for producing and using a molded filter container for tea in which extraction is performed by bringing the liquid into contact .
【0004】[0004]
【課題を解決するための手段】上記課題を達成するため
に本願で特許請求される発明は以下の通りである。
(1)フィルタ容器形状の凹凸金型を用い、合成繊維不
織布を加熱下にプレス成形してフィルタ容器を製造する
方法であって、該フィルタ容器は、その開口側からフラ
ンジ部および該フランジ部より小径のフランジ下部と、
該フランジ下部に連設された抽出部とを有し、前記合成
繊維不織布として120℃における破断伸度が140%
以上である合成繊維不織布を用い、前記抽出部の繊維組
織が前記フランジ部およびフランジ下部より粗目に展伸
し、該展伸の展開比が0.7〜0.9であり、その繊維
間隙が60〜410μmとなるように一体成形すること
を特徴とする抽出時に抽出部の全面を被抽出液に接触さ
せるお茶用成形フィルタ容器の製造法。
(2)フィルタ容器形状の凹凸金型を用い、120℃に
おける破断伸度が140%以上である合成繊維不織布を
加熱下にプレス一体成形されたフィルタ容器であって、
その開口側からフランジ部および該フランジ部より小径
のフランジ下部と、該フランジ下部に連設された抽出部
とを有し、前記抽出部の繊維組織が前記フランジ部およ
びフランジ下部より粗目に展伸され、該展伸の展開比が
0.7〜0.9であり、その繊維間隙が60〜410μ
mである成形フィルタ容器に茶葉を投入し、前記抽出部
の全面を被抽出液に接触させて茶葉の抽出を行うことを
特徴とするお茶用成形フィルタ容器の使用法。 The invention claimed in the present application for attaining the above object is as follows. (1) A method of manufacturing a filter container by press-molding a synthetic fiber nonwoven fabric under heating using a filter container-shaped concave-convex mold, wherein the filter container has a flange part and a flange part from the opening side. The lower part of the small diameter flange,
The synthetic fiber non-woven fabric has an extraction part continuously provided under the flange and has a breaking elongation of 140 % at 120 ° C.
Using the synthetic fiber non-woven fabric as described above, the fiber structure of the extraction part is expanded more coarsely than the flange part and the lower part of the flange, and the expansion ratio of the expansion is 0.7 to 0.9, and the fiber gap is The entire surface of the extraction part is kept in contact with the liquid to be extracted at the time of extraction, which is characterized in that it is integrally molded to have a thickness of 60 to 410 μm.
A method of manufacturing molded filter containers for tea . (2) Using a concavo-convex mold in the shape of a filter container, at 120 ° C
Synthetic fiber nonwoven fabric with a breaking elongation of 140% or more
A filter container integrally press-formed under heating,
From the opening side to the flange and a smaller diameter than the flange
Lower part of the flange and the extraction part connected to the lower part of the flange
And the fibrous structure of the extraction part is
And the lower part of the flange is coarsely expanded, and the expansion ratio of the expansion is
0.7-0.9 and the fiber gap is 60-410μ
The tea leaves are put into a molded filter container of m, and the extraction section
Extract the tea leaves by contacting the entire surface of the tea with the liquid to be extracted.
Usage of the characteristic molded filter container for tea.
【0005】本発明に用いられる合成繊維不織布として
は、120℃における破断伸度が140%以上を有する
ものであれば特に制限はなく、例えば、ポリエステル系
繊維、ポリオレフィン系繊維、ポリアミド系繊維、ポリ
エチレン−ポリエステル等の複合繊維や共重合繊維など
の単一または2種以上の混合繊維、積層繊維等を用いて
公知の製造方法、例えばスパンボンド法、ニードルパン
チ法、サーマルボンド法などにより製造された不織布が
用いられる。The synthetic fiber non-woven fabric used in the present invention is not particularly limited as long as it has a breaking elongation at 120 ° C. of 140% or more, and examples thereof include polyester fibers, polyolefin fibers, polyamide fibers and polyethylene. - single or two or more mixed fibers, known methods of producing a stacked fibers such as composite fibers or copolymerization fibers such as polyester, for example, spun-bonding method, a needle punching method, is produced by a thermal volume command method Non-woven fabric is used.
【0006】この合成繊維不織布は、フランジ部、フラ
ンジ下部および抽出部を有する容器に一体成形される
が、フランジ下部はフランジ部よりも小口径に成形さ
れ、また不織布は一体成形加工によって例えば約2〜1
0倍の面積に拡大されるため、成形加工温度(80〜2
20℃)において充分な伸縮性が必要である。このた
め、本発明に用いる不織布の120℃における破断伸度
を140%以上に規定している。 This synthetic fiber non-woven fabric is formed integrally with a container having a flange portion, a lower portion of the flange and an extraction portion. The lower portion of the flange is formed to have a smaller diameter than that of the flange portion. ~ 1
Since it is expanded to 0 times the area, molding processing temperature (80-2
Sufficient elasticity is required at 20 ° C. Therefore, the breaking elongation at 120 ° C. of the nonwoven fabric used in the present invention is specified to be 140% or more.
【0007】図1は、本発明の製造法で得られる成形フ
ィルタ容器の一例を示す説明図である。図において、成
形フィルタ容器10は、上端のフランジ部1と、該フラ
ンジ部1の内側下部に設けられた段差状のフランジ下部
2と、該フランジ下部と連接し、上記フランジ部1およ
びフランジ下部2を構成する不織布の繊維組織より粗目
に展伸されている抽出部3とからなる。FIG. 1 is an explanatory view showing an example of a molded filter container obtained by the manufacturing method of the present invention. In the figure, a molded filter container 10 includes a flange portion 1 at an upper end, a stepped flange lower portion 2 provided on an inner lower portion of the flange portion 1, and a flange lower portion 2 which are connected to each other, and the flange portion 1 and the flange lower portion 2 are connected to each other. And the extraction part 3 that is coarsely expanded from the fiber structure of the non-woven fabric constituting the.
【0008】このフィルター容器10は、前述の合成繊
維不織布を例えば熱プレス成形などの本発明の方法を用
いて展開比0.7〜0.9の範囲で一体成形することに
より、容易に製造することができる。また不織布の目付
けは30〜300g/m2 、構成繊維の繊度は0.5〜
10デニール、不織布の厚さは0.05〜1.0mmの範
囲が好ましい。The filter container 10 is easily manufactured by integrally molding the above-mentioned synthetic fiber non-woven fabric using the method of the present invention such as hot press molding at a development ratio of 0.7 to 0.9. it is possible. Basis weight of the or nonwoven 30~300g / m 2, the fineness of constituent fibers is 0.5
The thickness of the non-woven fabric is preferably 10 denier and 0.05 to 1.0 mm.
【0009】このような一体成形によれば、フランジ部
1は不織布の繊維組織の展伸が少ないため繊維密度およ
び目付けが最も高くなり、次いでフランジ下部2および
抽出部3と順次繊維組織の展伸が多くなり、抽出部3の
繊維組織は繊維密度および目付けが最も低く、粗目に成
形される。したがって、繊維密度および目付けの高いフ
ランジ部1とフランジ下部2を抽出部3の上部に設ける
ことにより、成形フィルタ容器10に剛性および保形性
を保持させることが可能である。またフランジ部1の内
側下部に例えば1段または2段以上の段を有する小口径
のフランジ下部を設けることにより、既存容器の口径が
小さくてもフランジ下部2を介して既存容器の口径部に
しっかりと装着して安定することができるため、フィル
タ10が既存容器内に落ち込むことがない。なお、フラ
ンジ部1の口径は通常、異なる既存容器にも適合するよ
うに大き目に作られている。According to such integral molding, the flange portion 1 has the least expansion of the fiber structure of the non-woven fabric, so that the fiber density and the basis weight are the highest, and then the flange lower part 2 and the extraction part 3 are expanded in sequence. is increased, the fibrous tissue of the extraction unit 3 fiber density and basis weight of the lowest, are formed into coarse. Therefore, by providing the flange portion 1 and the flange lower portion 2 having a high fiber density and a high basis weight on the upper portion of the extraction portion 3, the molded filter container 10 can retain rigidity and shape retention. Further, by providing a small-diameter flange lower part having, for example, one step or two or more steps in the inner lower part of the flange part 1, even if the existing container has a small diameter, it is firmly attached to the caliber part of the existing container via the flange lower part 2. Since it can be mounted and stabilized, the filter 10 will not fall into the existing container. In addition, the diameter of the flange portion 1 is usually made large so as to fit different existing containers.
【0010】フランジ部1の幅は、上述したような形状
保持性、剛性付与性、既存容器への装着性などの点か
ら、0.5〜30mmの範囲が好ましい。またフランジ下
部2は、フランジ部1と相互にかかわりつつ形状保持
性、剛性付与性、異口径既存容器への装着性等を向上さ
せる作用を有するため、フランジ下部2の平面から見た
口径幅は、5〜30mmの範囲が好ましい。フランジ下部
の形状はその作用を阻害しない限りどのような形状でも
よく、例えば階段状、波状、斜面状などを呈し、口径サ
イズが連続的もしくは段階的に変化するものであればよ
い。図2には2階段状に変化したフランジ下部2Aを有
する成形フィルタ容器10を示した。The width of the flange portion 1 is preferably in the range of 0.5 to 30 mm from the viewpoints of the shape-retaining property, the rigidity-imparting property and the mounting property to the existing container as described above. Further, since the lower flange portion 2 has an effect of improving shape retention, rigidity imparting property, mountability to an existing container having a different diameter, etc. while being mutually related to the flange portion 1, the diameter width of the lower flange portion 2 viewed from the plane is The range of 5 to 30 mm is preferable. The shape of the lower part of the flange may be any shape as long as it does not impair its action, and may be, for example, stepwise, wavy, or sloped, and the size of the diameter thereof may be changed continuously or stepwise. FIG. 2 shows a molded filter container 10 having a lower flange portion 2A that is changed in two steps.
【0011】抽出部3は、フランジ部1およびフランジ
下部3の合成繊維不織布の目付けおよび繊維密度より粗
目に展伸され、その繊維間隙は60〜410μmの範囲
とされる。抽出部3の繊維間隙を使用目的に応じて適宜
選定することにより、紅茶、緑茶などの被抽出物の通過
を防ぎつつ、熱湯などの抽出液の通液速度を最適なもの
とすることができる。The extraction part 3 is expanded more coarsely than the basis weight and the fiber density of the synthetic fiber nonwoven fabric of the flange part 1 and the lower part 3 of the flange, and the fiber gap is in the range of 60 to 410 μm . By appropriately selected depending on Extraction section 3 of the fiber interstices of the intended use, tea, while preventing the passage of green tea for any substance to be extracted, optimum to be a liquid passage rate of the extract, such as hot water You can
【0012】繊維間隙の測定はバブルポイント法によっ
て行うことができる。具体的には、溶媒に濡らした試料
の片側に空気による圧力を徐々にかけてゆき、試料の反
対側に気泡が最初にでて破裂するときの圧力とその溶媒
の表面張力を測定して下記の式により算出し、測定試料
の10か所の平均値で示す。
R(μm)=30r(dyne/cm)/P(mmH
g)
(但し、Rは最大孔径、rは溶媒の表面張力、Pはバブ
ルポイント圧力を示す)The fiber gap can be measured by the bubble point method. Specifically, the pressure of air is gradually applied to one side of the sample wet with the solvent, and the pressure when the bubbles first burst on the opposite side of the sample and the surface tension of the solvent are measured to obtain the following formula. And the average value of 10 points of the measurement sample is shown. R (μm) = 30r (dyne / cm) / P (mmH
g) (where R is the maximum pore size, r is the surface tension of the solvent, and P is the bubble point pressure)
【0013】図3は、本発明の製造法で得られた成形フ
ィルタ容器を既存容器に装着して被抽出物の成分抽出を
行う際の説明図である。図において、成形フィルタ容器
10が既存容器11に装着され、フランジ下部2および
抽出部3が既存容器11の中に入り、フランジ部1が既
存容器11の口部上端に保持される。このような状態で
紅茶、緑茶などの被抽出物5を成形フィルタ容器10の
抽出部3に入れた後、熱湯6が注がれる。抽出部3の被
抽出物5は、熱湯6と充分に万遍なく接触して膨潤し、
伸長、拡大し、抽出され、好みの抽出量に達した後、既
存容器11から成形フィルタ容器10とともに取出され
る。本発明の製造法で得られた成形フィルタ容器は、異
なる口径サイズの紙コップ、プラスチックカップ、陶
器、ポット等の既存容器に好適に使用することができ
る。FIG. 3 is an explanatory view when the molded filter container obtained by the manufacturing method of the present invention is mounted on an existing container to extract the components of the substance to be extracted. In the figure, the molded filter container 10 is attached to the existing container 11, the flange lower part 2 and the extraction part 3 enter the existing container 11, and the flange part 1 is held at the upper end of the mouth part of the existing container 11. After placing tea, which the extract 5 green tea extraction unit 3 of the shaping filter container 10 in this state, hot water 6 is poured. The substance to be extracted 5 in the extraction part 3 is in contact with the hot water 6 evenly and swells,
It is expanded, expanded, extracted, and after reaching the desired extraction amount, it is taken out from the existing container 11 together with the molded filter container 10. The molded filter container obtained by the production method of the present invention can be suitably used for existing containers such as paper cups, plastic cups, pottery and pots having different caliber sizes.
【0014】[0014]
【実施例】以下、本発明を実施例により詳細に説明す
る。
実施例1
平均繊度4デニールのポリエステル長繊維を用いてスパ
ンボンド法によって目付け100g/m2 の不織布を得
た。この不織布の130℃温度下の破断伸度は270%
であった(120℃の破断伸度250%)。次いで図1
に示す形状の凹凸金形を用い、成形温度130℃で上記
不織布を熱プレス成形加工して本発明の成形フィルタ容
器を作製した。得られたフィルタ容器の形状は、フラン
ジ部外口径95mmおよび内口径75mm、フランジ下部幅
5mmおよび深さ5mm、抽出部深さ65mmであり、抽出部
の繊維間隙は60〜230μmであった。この成形フィ
ルタ容器を、図3に示すように既存容器(内口径70m
m)に装着し、紅茶を3g入れて熱湯を注いだ。フィル
タ容器は既存容器内に落下することなく、紅茶の葉が速
やかに膨潤、伸長、拡大して紅茶の色、香りを呈し、お
いしい紅茶を抽出することができた。EXAMPLES The present invention will be described in detail below with reference to examples. Example 1 A nonwoven fabric having a basis weight of 100 g / m 2 was obtained by a spunbond method using polyester filaments having an average fineness of 4 denier. The breaking elongation of this nonwoven fabric at a temperature of 130 ° C. is 270%
Was found (breaking elongation at 120 ° C. of 250%). Then Fig. 1
Using the concavo-convex mold having the shape shown in Fig. 3, the above-mentioned non-woven fabric was hot press-molded at a molding temperature of 130 ° C to prepare a molded filter container of the present invention. The shape of the obtained filter container had an outer diameter of the flange portion of 95 mm and an inner diameter of 75 mm, a flange lower width of 5 mm and a depth of 5 mm, and an extraction portion depth of 65 mm, and the fiber gap of the extraction portion was 60 to 230 μm. As shown in Fig. 3, this molded filter container is used as an existing container (inner diameter 70 m
m), put 3g of black tea and pour boiling water. The filter container did not fall into the existing container, and the black tea leaves swollen, expanded, and expanded promptly to give the color and aroma of black tea, and delicious black tea could be extracted.
【0015】実施例2
平均繊度2デニールのポリプロピレン長繊維を用いてス
パンボンド法によって目付け60g/m2 の不織布を得
た。この不織布の140℃温度下の破断伸度は160%
であった(120℃の破断伸度140%)。次いで図2
に示す形状の凹凸金形を用い、成形温度140℃で上記
不織布を熱プレス成形加工して本発明の成形フィルタ容
器を作製した。得られたフィルタ容器の形状は、フラン
ジ部外口径80mmおよび内口径60mm、フランジ下部幅
5mmおよび深さ4mmの2階段状、抽出部深さ40mmであ
り、抽出部の繊維間隙は80〜330μmであった。こ
の成形フィルタ容器は、保形性および剛性に優れている
ため、既存容器(内口径55mm)にしっかりと装着で
き、緑茶3gを入れて熱湯を注ぐことにより、速やかに
成分の抽出が行え、おいしい緑茶を抽出することができ
た。Example 2 A nonwoven fabric having a basis weight of 60 g / m 2 was obtained by a spunbond method using polypropylene filaments having an average fineness of 2 denier. The breaking elongation of this nonwoven fabric at a temperature of 140 ° C is 160%.
Was (140% elongation at break 140%). Then Fig. 2
Using the concavo-convex mold having the shape shown in Fig. 3, the above-mentioned nonwoven fabric was hot press molded at a molding temperature of 140 ° C to prepare a molded filter container of the present invention. The shape of the obtained filter container was two steps of the flange outer diameter 80 mm and inner diameter 60 mm, the flange lower width 5 mm and the depth 4 mm, and the extraction portion depth 40 mm, and the fiber gap of the extraction portion was 80 to 330 μm. there were. Since this molded filter container is excellent in shape retention and rigidity, it can be firmly attached to an existing container (inner diameter 55 mm), and by pouring 3 g of green tea and pouring hot water, the components can be quickly extracted and delicious. I was able to extract green tea.
【0016】実施例3
平均繊度3デニールのポリエステル長繊維を用いてスパ
ンボンド法によって目付け50g/m2 の不織布を得
た。この不織布の150℃温度下の破断伸度は250%
であった(120℃の破断伸度230%)。次いで図1
に示す形状の凹凸金形を用い、成形温度150℃で熱プ
レス成形を行い、フランジ部外口径90mmおよび内口径
70mm、フランジ下部深さ5mmおよび幅5mmの1階段
状、抽出部口径60mm、フランジ部から抽出部底部まで
の深さ50mmで抽出部の繊維間隙180〜410μmで
ある本発明の円形成形フィルタ容器を作製した。Example 3 A nonwoven fabric having a basis weight of 50 g / m 2 was obtained by a spunbond method using polyester filaments having an average fineness of 3 denier. The breaking elongation of this non-woven fabric at a temperature of 150 ° C is 250%.
Was obtained (breaking elongation at 120 ° C. 230%). Then Fig. 1
Using the concavo-convex mold of the shape shown in Figure 1, hot press molding was performed at a molding temperature of 150 ° C, the flange outer diameter 90 mm and inner diameter 70 mm, the flange bottom depth 5 mm and width 5 mm, one step shape, extraction portion diameter 60 mm, flange A circular molded filter container of the present invention having a depth of 50 mm from the extraction part to the bottom of the extraction part and a fiber gap of 180 to 410 μm in the extraction part was produced.
【0017】この成形フィルタ容器を内口径75mm、深
さ100mmのマグカップ容器に挿入したところ、速やか
に挿入でき、成形フィルタ容器のフランジ部がマグカッ
プの上端口部にしっかり装着した。成形フィルタ容器
に、リーフティ紅茶6gを入れ、卓上型ポンプ式熱湯ポ
ットから95℃の熱湯をリーフティ紅茶を注湯してマグ
カップの上端より約20mm下方まで約300ccの熱湯を
注いだ。約2分後に成形フィルタ容器とリーフティ紅茶
を取出し、紅茶を飲んだところ、非常においしい香りと
味を味わうことができた。When this molded filter container was inserted into a mug container having an inner diameter of 75 mm and a depth of 100 mm, it could be quickly inserted, and the flange portion of the molded filter container was firmly attached to the upper end opening of the mug. 6 g of leaf tea was put in a molded filter container, hot water of 95 ° C was poured from a tabletop pump hot water pot, and about 300 cc of hot water was poured to about 20 mm below the upper end of the mug. After about 2 minutes, the molded filter container and the leafy black tea were taken out, and when I drank the black tea, I was able to taste a very delicious aroma and taste.
【0018】比較例1
実施例3において、フランジ下部を設けない金形を用い
た以外は実施例3と同様にして成形フィルタ容器を作製
し、これを用いてリーフティ紅茶の抽出を行った。リー
フティ紅茶6gを入れて熱湯を注いだところ、成形フィ
ルタ容器が左右に移動し、簡単にマグカップ内に落ち込
んでしまい、充分な紅茶の成分抽出ができなかった。Comparative Example 1 A molded filter container was prepared in the same manner as in Example 3 except that a mold having no lower flange portion was used, and leaf tea was extracted from the molded filter container. When 6 g of leaf tea was added and hot water was poured, the molded filter container moved to the left and right and easily fell into the mug, and it was not possible to sufficiently extract the tea components.
【0019】[0019]
【発明の効果】本発明のお茶用成形フィルタ容器の製造
法および使用法によれば、一定の破断伸度を有する合成
繊維不織布をフランジ部、フランジ下部および抽出部を
有する成形フィルタ容器に一体成形し、しかも該抽出部
がフランジ部およびフランジ下部の繊維組織より粗目に
なるように展伸するため、得られる成形フィルタ容器の
剛性および保形性に優れ、該成形フィルタ容器の底面を
既存容器の底面に接触させることなく、フランジ部また
はフランジ下部を介して各種の口径の異なる既存容器に
容易に装着して使用できるとともに、その状態で抽出液
を注いでも該成形フィルタ容器が既存容器に落ち込むこ
とがなく、その取扱性に優れる。さらに抽出部不織布の
繊維間隙を適宜選定することにより、被抽出物の通過を
防ぎつつ抽出液と充分に接触させて被抽出物の膨潤、伸
長、拡大を速やかに行わせ、短時間で有効な抽出を行う
ことができる。従って、本発明の製造法で得られた成形
フィルタ容器は、紅茶、緑茶の成分抽出用フィルタとし
て有用である。EFFECTS OF THE INVENTION Manufacture of the molded filter container for tea of the present invention
According to the method and the method of use , a synthetic fiber non-woven fabric having a constant breaking elongation is integrally molded into a molded filter container having a flange portion, a lower flange portion and an extraction portion, and the extraction portion has a fiber structure of the flange portion and the lower flange portion. to wrought to be more coarse, excellent rigidity and shape retention of the molded filter container to be obtained, the bottom surface of the molding filter container
It can be easily attached to existing containers with different diameters through the flange or the lower part of the flange without contacting the bottom of the existing container, and the molded filter container can be used even if the extraction liquid is poured in that state. It is easy to handle and does not fall into. Further, by appropriately selecting the fiber gap of the extraction part nonwoven fabric, the extraction target is prevented from passing through and is sufficiently contacted with the extraction liquid to quickly swell, extend and expand the extraction target, which is effective in a short time. Extraction can be done. Thus, shaping filter container obtained by the production method of the present invention, tea useful Te and component extraction filter of green tea <br/>.
【図1】本発明の一実施例を示す成形フィルタ容器の断
面図。FIG. 1 is a sectional view of a molded filter container showing an embodiment of the present invention.
【図2】本発明の他の実施例を示す成形フィルタ容器の
断面図。FIG. 2 is a sectional view of a molded filter container showing another embodiment of the present invention.
【図3】本発明の成形フィルタ容器で既存容器に装着し
て被抽出物の成分抽出を行う際の説明図。FIG. 3 is an explanatory view when the molded filter container of the present invention is attached to an existing container to extract components of an object to be extracted.
1…フランジ部、2、2A…フランジ下部、3…抽出
部、5…被抽出物、6…熱湯、10…成形フィルタ容
器、11…既存容器。1 ... Flange part, 2 2A ... Flange lower part, 3 ... Extraction part, 5 ... Extracted object, 6 ... Hot water, 10 ... Molding filter container, 11 ... Existing container.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 岩崎 博文 大阪府大阪市北区堂島浜1丁目2番6号 旭化成工業株式会社内 (72)発明者 岩澤 昌彦 埼玉県幸手市中1丁目5−11−207 (56)参考文献 特開 平4−336014(JP,A) 特開 昭63−209617(JP,A) 特開 昭63−305822(JP,A) 特開 平3−229606(JP,A) 特開 平4−102415(JP,A) 特開 昭52−88462(JP,A) 特開 平4−256408(JP,A) 特開 平1−308511(JP,A) 実開 平4−103831(JP,U) 実開 昭62−143439(JP,U) 実開 昭63−196624(JP,U) 実開 平4−53413(JP,U) 実開 平4−83131(JP,U) 実開 昭60−24231(JP,U) 実開 平2−109529(JP,U) (58)調査した分野(Int.Cl.7,DB名) A47J 31/06 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hirofumi Iwasaki 1-2-6 Dojimahama, Kita-ku, Osaka City, Osaka Prefecture Asahi Kasei Corporation (72) Inventor Masahiko Iwasawa 1-11-5, Naka, Satte City, Saitama Prefecture 207 (56) Reference JP-A-4-336014 (JP, A) JP-A-63-209617 (JP, A) JP-A-63-305822 (JP, A) JP-A-3-229606 (JP, A) JP-A-4-102415 (JP, A) JP-A-52-88462 (JP, A) JP-A-4-256408 (JP, A) JP-A-1-308511 (JP, A) (JP, U) Actually open 62-143439 (JP, U) Actually open 63-196624 (JP, U) Actually open 4-53413 (JP, U) Actually open 4-83131 (JP, U) Actual Kai 60-24231 (JP, U) Actual Kaihei 2-109529 (JP, U) (58) Fields investigated (Int.Cl. 7 , DB name) A47J 31/06
Claims (2)
成繊維不織布を加熱下にプレス成形してフィルタ容器を
製造する方法であって、該フィルタ容器は、その開口側
からフランジ部および該フランジ部より小径のフランジ
下部と、該フランジ下部に連設された抽出部とを有し、
前記合成繊維不織布として120℃における破断伸度が
140%以上である合成繊維不織布を用い、前記抽出部
の繊維組織が前記フランジ部およびフランジ下部より粗
目に展伸し、該展伸の展開比が0.7〜0.9であり、
その繊維間隙が60〜410μmとなるように一体成形
することを特徴とする抽出時に抽出部の全面を被抽出液
に接触させるお茶用成形フィルタ容器の製造法。1. A method of manufacturing a filter container by press-forming a synthetic fiber nonwoven fabric under heating using a filter container-shaped concave-convex mold, wherein the filter container has a flange portion and the flange from the opening side. A flange lower part having a diameter smaller than that of the part, and an extraction part connected to the lower part of the flange,
The synthetic fiber nonwoven fabric has a breaking elongation at 120 ° C.
Using a synthetic fiber non-woven fabric of 140 % or more, the fiber structure of the extraction part is expanded more coarsely than the flange part and the lower part of the flange, and the expansion ratio of the expansion is 0.7 to 0.9,
The entire surface of the extraction part during extraction is characterized by being integrally molded so that the fiber gap becomes 60 to 410 μm.
Of a molded filter container for tea that is brought into contact with a glass .
20℃における破断伸度が140%以上である合成繊維
不織布を加熱下にプレス一体成形されたフィルタ容器で
あって、その開口側からフランジ部および該フランジ部
より小径のフランジ下部と、該フランジ下部に連設され
た抽出部とを有し、前記抽出部の繊維組織が前記フラン
ジ部およびフランジ下部より粗目に展伸され、該展伸の
展開比が0.7〜0.9であり、その繊維間隙が60〜
410μmである成形フィルタ容器に茶葉を投入し、前
記抽出部の全面を被抽出液に接触させて茶葉の抽出を行
うことを特徴とするお茶用成形フィルタ容器の使用法。 2. Using a concavo-convex mold having a filter container shape, 1
Synthetic fiber having a breaking elongation at 20 ° C of 140% or more
A non-woven filter container molded by pressing under heating
And the flange and the flange from the opening side
It is connected to the lower part of the smaller diameter flange and the lower part of the flange.
And a fiber structure of the extraction part
Roughly stretched from the bottom of the flange and the bottom of the flange.
The expansion ratio is 0.7 to 0.9, and the fiber gap is 60 to
Put tea leaves into a 410 μm molded filter container and
The tea leaves are extracted by bringing the entire surface of the extraction section into contact with the liquid to be extracted.
A method of using a molded filter container for tea, which is characterized by the following.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP34832992A JP3370364B2 (en) | 1992-12-28 | 1992-12-28 | Manufacturing and use of molded filter containers for tea |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP34832992A JP3370364B2 (en) | 1992-12-28 | 1992-12-28 | Manufacturing and use of molded filter containers for tea |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH06189853A JPH06189853A (en) | 1994-07-12 |
| JP3370364B2 true JP3370364B2 (en) | 2003-01-27 |
Family
ID=18396301
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP34832992A Expired - Fee Related JP3370364B2 (en) | 1992-12-28 | 1992-12-28 | Manufacturing and use of molded filter containers for tea |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3370364B2 (en) |
Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100473771C (en) | 2002-07-01 | 2009-04-01 | 旭化成纤维株式会社 | Nonwoven fabrics and tea package |
| JP3161435U (en) * | 2010-05-20 | 2010-07-29 | 株式会社ロロ | Teacup |
| JP7248433B2 (en) * | 2019-01-08 | 2023-03-29 | カナエ紙工株式会社 | Assembled filter for extracting powder |
-
1992
- 1992-12-28 JP JP34832992A patent/JP3370364B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH06189853A (en) | 1994-07-12 |
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