JP2008143566A - Constant-quantity shake-out container for powdery and granular material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a constant-quantity shake-out container for a powdery and granular material, which enables the powdery and granular material to be shaken out in constant quantities without causing clogging, even if the container is completely filled or almost filled the powdery and granular material. <P>SOLUTION: This constant-quantity shake-out container comprises a container body 2 for housing the powdery and granular material 12, and a lid body 3 for closing an upper end opening 2a of the container 2. The constant-quantity shake-out container is equipped with a hollow pipe 4 which vertically passes through the lid body 3, the upper end of which serves as a shake-out port 5, and the lower end of which is elongated to the vicinity of the bottom of the container body 2. A bottomed adjusting cylinder 6 is fitted in a vertically slidable manner into the lower end opening of the hollow pipe 4; a lower side wall of the hollow pipe 4 is notched for the formation of an intake port 8; a regulating wall 9 is provided in the hollow pipe 4, so as to form a regulation chamber 10 and an exhaust passage 11 on the side of the intake port 8; and the intake port 8 and the exhaust passage 11 communicate with each other via a storage chamber 7 which is formed between the lower end 9a of the regulating wall 9 and a bottom of the bottomed adjusting cylinder 6. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

本発明は、粉状物や粒状物を定量づつ振り出すことができる粉粒状物の定量振出容器に関する。 The present invention relates to a quantitative dispensing container for a powdered granular material from which a powdery material or a granular material can be shaken out quantitatively.

粉状物や粒状物の定量振出容器としては、容器の蓋を上下に貫通してパイプを設け、下端部の取入口から容器内に収容した粉粒状物をパイプ内に取り入れ、容器を反転することにより、パイプの上端の振出口から振り出すようにした、粉末定量振出容器が知られている（特許文献１）。 As a quantitative dispensing container for powdered and granular materials, pipes are provided by penetrating the lid of the container up and down, and the granular materials contained in the container are taken into the pipe from the intake at the lower end, and the container is inverted. Thus, there is known a powder quantitative shaker container that is shaken out from a shaker at the upper end of a pipe (Patent Document 1).

しかしながら、かかる粉末定量振出容器では、パイプ下端部の取入口が容器の底部に臨む構造となっているため、容器内に粉末を満タン乃至満タン近くまで充填した場合には、容器を反転して内容物を振り出そうとすると、狭い取入口に多量の粉末が殺到して詰まってしまい、粉末を定量振り出すことができない。いわば、漏斗に一度に多量の粉末を投入した場合に出口が詰まってしまう現象と同じ状態となる。
特開２００２−２６４９７５号公報 However, such a powder dispensing container has a structure in which the intake at the lower end of the pipe faces the bottom of the container. When trying to shake out the contents, a large amount of powder rushes into the narrow inlet and becomes clogged, and the powder cannot be dispensed quantitatively. In other words, when a large amount of powder is put into the funnel at the same time, the outlet becomes clogged.
JP 2002-264975 A

そこで、本発明の目的は、容器内に粉粒状物を満タン乃至満タン近くまで充填した場合でも、パイプが詰まることなく定量を振出すことができる、粉粒状物の定量振出容器を提供することを目的とする。 Accordingly, an object of the present invention is to provide a powder and powder quantitative dispensing container capable of dispensing a fixed amount without clogging the pipe even when the powder is filled up to nearly full. For the purpose.

上記課題を解決するために、本発明による粉粒状物の定量振出容器は、内部に粉粒状物を収容する容器本体と該容器本体の上端開口を塞ぐ蓋体を設け、該蓋体を上下に貫通して上端開口を振出口となし下端が容器本体の底部近くまで延びる中空パイプを設け、該中空パイプの下端開口部に上下動可能に有底調節筒を嵌合し、前記中空パイプの下部の側壁を切欠いて取入口を形成し、前記中空パイプ内に前記取入口近傍から軸方向上方に延びて上端が前記取入口側に閉じ下端が前記取入口の下端より若干下方まで延びる規制壁を設けて前記取入口側の規制室と排出路とを形成し、前記取入口と前記排出路とは前記規制壁の下端と前記有底調節筒の底部との間に形成された収容室を介して連通させてなること、を特徴としている。
また、中空パイプ内に重りを収容してなるものとしてもよい。
また、中空パイプの上端開口部にこれを塞ぐ着脱自在のキャップを備えてなるものとするとよい。 In order to solve the above-mentioned problems, a quantitative dispensing container for a granular material according to the present invention is provided with a container main body that contains the powder granular material and a lid that closes the upper end opening of the container main body, and the lid is moved up and down. A hollow pipe penetrating through the upper end opening and having a lower end extending near the bottom of the container body is provided, and a bottomed adjustment cylinder is fitted to the lower end opening of the hollow pipe so as to be movable up and down. A regulating wall extending in the hollow pipe from the vicinity of the inlet in the axial direction and having an upper end closed on the inlet side and a lower end extending slightly below the lower end of the inlet. And a regulation chamber and a discharge path on the intake side are formed, and the intake and the discharge path are provided via a storage chamber formed between a lower end of the regulation wall and a bottom portion of the bottomed adjustment cylinder. It is characterized by being able to communicate with each other.
Further, a weight may be accommodated in the hollow pipe.
Moreover, it is good to equip the upper-end opening part of a hollow pipe with the removable cap which plugs this.

本発明による粉粒状物の定量振出容器によれば、中空パイプの下端部に収容室が形成されているので、容器内に満タン乃至満タン近くまで粉粒状物を充填した状態で容器を反転させた場合、取入口に粉粒状物が殺到しても収容室に収容された粉粒状物には圧力が加わらないため、排出路が詰まることなく、排出路を流下して振出口から粉粒状物を振り出すことができる。
また、中空パイプ内に重りを収容しておけば、容器を反転させた際に、重りが落下して壁に衝突した衝撃で中空パイプが振動し、粉粒状物は排出路の壁面に付着することなく、排出路から排出され易くなる。
また、振出口にキャップを着脱自在に備えておけば、不使用時に、内部の湿気を防いだり、埃の進入を防止することができる。 According to the fixed amount dispensing container of the granular material according to the present invention, since the storage chamber is formed at the lower end portion of the hollow pipe, the container is inverted while the container is filled with the granular material to the full tank or near the full tank. In this case, no pressure is applied to the particulate matter accommodated in the storage chamber even if the intake is flooded with particulate matter, so that the discharge passage does not get clogged and flows down the discharge passage. You can shake things out.
If the weight is accommodated in the hollow pipe, when the container is inverted, the hollow pipe vibrates due to the impact of the weight falling and colliding with the wall, and the particulate matter adheres to the wall surface of the discharge path. Without being easily discharged from the discharge path.
Further, if a cap is detachably provided at the swing outlet, it is possible to prevent moisture inside and prevent dust from entering when not in use.

以下、本発明を実施するための最良の形態を図面に基づいて具体的に説明する。図１は本発明の実施例による粉粒状物の定量振出容器の縦断面図、図２は図１のＩＩ−ＩＩ断面図、図３は粉粒状物を略満タン収容した状態の図１相当の縦断面図、図４は略１００°傾けた状態の説明用縦断面図、図５は略１５０°傾斜させた状態の説明用縦断面図、図６は他の実施例による粉粒状物の定量振出容器の縦断面図、図７は図６の定量振出容器を反転させた状態の縦断面図、図８、図９はさらに他の実施例による粉粒状物の定量振出容器の縦断面図である。 The best mode for carrying out the present invention will be specifically described below with reference to the drawings. FIG. 1 is a longitudinal sectional view of a metered quantity container for powder and powder according to an embodiment of the present invention, FIG. 2 is a sectional view taken along line II-II in FIG. 1, and FIG. 3 is equivalent to FIG. FIG. 4 is a longitudinal sectional view for explaining in a state inclined by about 100 °, FIG. 5 is a longitudinal sectional view for explaining in a state inclined by about 150 °, and FIG. 6 is a sectional view of a granular material according to another embodiment. FIG. 7 is a vertical cross-sectional view of the quantitative shake-out container of FIG. 6 inverted, and FIGS. 8 and 9 are vertical cross-sectional views of the powder-quantitative quantitative shake-out container according to another embodiment. It is.

本発明の実施例による粉粒状物の定量振出容器１は、内部に粉末茶などの粉粒状物を収容する容器本体２と、この容器本体２の上端開口２ａを塞ぐ蓋体３と、該蓋体３を上下に貫通して設けた中空パイプ４からなる。 A powdered quantitative dispensing container 1 according to an embodiment of the present invention includes a container main body 2 that contains a powdered granular material such as powdered tea, a lid 3 that closes an upper end opening 2a of the container main body 2, and the lid. It consists of a hollow pipe 4 that penetrates the body 3 vertically.

容器本体２の上端開口２ａから容器本体２内に粉粒状物を収容する。容器本体２の上端外周面には雄ねじが形成され、蓋体３が螺合して着脱可能に取り付けられる。
蓋体３には、該蓋体３を上下に貫通し、容器本体２の高さより長い円筒状の中空パイプ４が取付けられている。この中空パイプ４の上端は傾斜した振出口５となっている。一方、中空パイプ４の下端部には、有底の円筒（調節筒）６が上下に摺動可能に嵌合されて、収容室７を形成し、中空パイプ４の下端開口４ａが直接容器本体２の底部２ｂに臨まないようになっている。 A granular material is accommodated in the container main body 2 from the upper end opening 2 a of the container main body 2. A male screw is formed on the outer peripheral surface of the upper end of the container body 2, and the lid 3 is screwed and attached in a detachable manner.
A cylindrical hollow pipe 4 that passes through the lid 3 in the vertical direction and is longer than the height of the container body 2 is attached to the lid 3. The upper end of the hollow pipe 4 is an inclined outlet 5. On the other hand, a bottomed cylinder (adjustment cylinder) 6 is fitted to the lower end portion of the hollow pipe 4 so as to be slidable up and down to form a storage chamber 7, and the lower end opening 4a of the hollow pipe 4 is directly connected to the container body. 2 so as not to face the bottom 2b.

中空パイプ４の下部の側壁で有底調節筒６の上端より若干上方には粉粒状物を中空パイプ４内に取り込むための取入口８を形成してある。そして、中空パイプ４内には、取入口８近傍から軸方向上方のパイプ中央部付近まで延びる仕切壁（規制壁）９を設けてあり、その上端９ａが取入口８側に閉じて取入口８側の上方に規制室１０を形成し、一方、規制壁９の反対側に排出路１１を形成する。規制壁９の下端９ｂは取入口８の下端８ａより若干下方まで延びて形成してある。 An intake port 8 for taking in the granular material into the hollow pipe 4 is formed in the lower side wall of the hollow pipe 4 slightly above the upper end of the bottomed adjustment cylinder 6. The hollow pipe 4 is provided with a partition wall (regulating wall) 9 extending from the vicinity of the intake 8 to the vicinity of the central portion of the pipe in the axial direction, and its upper end 9a is closed to the intake 8 to close the intake 8. A restriction chamber 10 is formed above the side, while a discharge path 11 is formed on the opposite side of the restriction wall 9. The lower end 9 b of the restriction wall 9 is formed to extend slightly below the lower end 8 a of the intake port 8.

規制壁９の下端９ｂと有底調節筒６の底部との間が粉粒状物を収容する収容室７となっており、この収容室７を介して取入口８と排出路１１とは連通している。そして、中空パイプ４の下端部に対して有底調節筒６を上下することによって、収容室７に収容される粉粒状物の量、従って、一回に振り出される粉粒状物の量を調節することができる。 A space between the lower end 9b of the regulating wall 9 and the bottom of the bottomed adjusting cylinder 6 is a storage chamber 7 for storing the particulate matter, and the intake port 8 and the discharge path 11 communicate with each other through the storage chamber 7. ing. Then, by moving the bottomed adjustment cylinder 6 up and down with respect to the lower end portion of the hollow pipe 4, the amount of the particulate matter accommodated in the accommodation chamber 7 and, therefore, the amount of the particulate matter dispensed at a time is adjusted. can do.

次に、かかる構成からなる定量振出容器１の使用方法を説明する。
先ず、容器本体２内に満タン近くまで粉粒状物１２を収容して、定量振出容器１を立てた状態では、図３に示すように、取入口８から中空パイプ４内の収容室７に粉粒状物１２が収容される。
次いで、定量振出容器１を傾けて、図４に示すように約１００°傾けた状態では、取入口８から取り入れられた粉粒状物１２は規制室１０には流入するが、規制壁９の下端９ｂが障害となって収容室７には流入しない。
さらに傾斜させると、図５に示すように、収容室７に収容されていた粉粒状物１２が排出路１１を落下して振出口５から定量振出容器１外に振り出される。このとき、規制壁９の下端９ｂ（図５では上端）が取入口８の下端８ａ（図５では上端）より若干下方（図５では上方）まで延びて形成されているので、取入口８から粉粒状物１２が中空パイプ４内に流入しても、規制壁９の下端９ｂが障害となって収容室７に粉粒状物１２が流入することがなく、排出路１１の始端部１１ａに中空パイプ４内に新たに流入した粉粒状物１２による圧力が加わることがない。このため、定量振出容器１内に満タン又は満タン近くまで粉粒状物１２を充填した状態であっても、中空パイプ４が詰まることなく、定量を振り出すことができる。 Next, a method for using the quantitative shakeout container 1 having such a configuration will be described.
First, in a state where the powder and granular material 12 is accommodated in the container main body 2 to the vicinity of the full tank and the fixed amount dispensing container 1 is erected, as shown in FIG. 3, the intake 8 is placed in the accommodation chamber 7 in the hollow pipe 4. The granular material 12 is accommodated.
Next, when the fixed amount dispensing container 1 is tilted and tilted by about 100 ° as shown in FIG. 4, the particulate matter 12 taken from the intake port 8 flows into the regulation chamber 10, but the lower end of the regulation wall 9. 9b becomes an obstacle and does not flow into the storage chamber 7.
When further tilted, as shown in FIG. 5, the powdery granular material 12 stored in the storage chamber 7 falls down the discharge path 11 and is shaken out of the fixed amount dispensing container 1 from the shaker outlet 5. At this time, the lower end 9b (upper end in FIG. 5) of the restriction wall 9 is formed so as to extend slightly below (upper in FIG. 5) below the lower end 8a (upper end in FIG. 5) of the intake port 8. Even if the granular material 12 flows into the hollow pipe 4, the lower end 9 b of the restriction wall 9 becomes an obstacle, so that the granular material 12 does not flow into the storage chamber 7 and is hollow at the start end portion 11 a of the discharge path 11. The pressure by the powdery granular material 12 newly flowing into the pipe 4 is not applied. For this reason, even if it is in the state which filled the granular material 12 in the fixed amount dispensing container 1 to the full tank or nearly full, the fixed amount can be shaken out without clogging the hollow pipe 4.

このようにして、定量を振り出した後、元に戻す（立てた状態にする）と、規制室１０に収容されていた粉粒状物１２が落下して収容室７に収容され、図３に示した状態となる。従って、上記の操作を繰り返せば、連続して定量を振り出すことができる。 In this way, when the fixed amount is shaken out and then returned to the original state (set to the standing state), the particulate matter 12 stored in the regulation chamber 10 falls and is stored in the storage chamber 7, and is shown in FIG. It becomes a state. Accordingly, if the above operation is repeated, the quantitative amount can be continuously generated.

蓋体３への中空パイプ４の取付けは固定して取付けてもよいし、上下摺動可能に取付けてもよい。
また、有底調節筒６の中空パイプ４下端部への嵌合は、中空パイプ４下端部外周面に係合突条１３を周方向に上下所定ピッチで形成し、有底調節筒６の内周面に係合突条１３に嵌合する係合凹溝１４を周方向に上下所定ピッチで形成して、上下所定ピッチで摺動可能としてある。なお、有底調節筒６の上下の調整を、図８に示すように、中空パイプ４下端部外周面に雄ねじ１５を、有底調節筒６の内周面に雌ねじ１６をそれぞれ形成し、螺子嵌合により行うようにしてもよい。又は図９に示すように、係合突条等、ねじ等を設けることなく、中空パイプ４下端部の外周面、有底調節筒６の内周面ともに円滑面として、中空パイプ４下端部に有底調節筒６を上下摺動可能に嵌合させるようにしてもよい。 The hollow pipe 4 may be fixedly attached to the lid 3 or may be attached so as to be slidable up and down.
The bottomed adjustment tube 6 is fitted to the lower end of the hollow pipe 4 by forming engaging protrusions 13 on the outer peripheral surface of the lower end of the hollow pipe 4 at a predetermined pitch in the circumferential direction. Engagement grooves 14 fitted to the engagement ridges 13 are formed on the circumferential surface at a predetermined vertical pitch in the circumferential direction so as to be slidable at a predetermined vertical pitch. As shown in FIG. 8, the bottomed adjustment cylinder 6 is vertically adjusted by forming a male screw 15 on the outer peripheral surface of the lower end of the hollow pipe 4 and a female screw 16 on the inner peripheral surface of the bottomed adjusting cylinder 6. It may be performed by fitting. Alternatively, as shown in FIG. 9, the outer peripheral surface of the lower end portion of the hollow pipe 4 and the inner peripheral surface of the bottomed adjusting cylinder 6 are smooth on the lower end portion of the hollow pipe 4 without providing an engagement protrusion or the like or a screw. The bottomed adjustment cylinder 6 may be fitted so as to be slidable up and down.

また、図８に示すように、中空パイプ４の上端開口部（振出口５）にこれを塞ぐ着脱自在のキャップ１７を備えるようにするとよい。不使用時に、排出路を通じての内部の湿気を防いだり、埃の進入を防止することができる。 Moreover, as shown in FIG. 8, it is good to provide the removable cap 17 which plugs this in the upper-end opening part (shaking port 5) of the hollow pipe 4. As shown in FIG. When not in use, it is possible to prevent moisture inside the discharge passage and to prevent dust from entering.

図１乃至図８では、振出口５は、中空パイプ４上端開口を傾斜させて形成したものを示したが、図９に示すように、振出口５を傾斜させて形成した別体の振出筒１９を中空パイプ４の上端部に嵌合させるようにしてもよい。
また、図９に示すように、容器本体２と蓋体３との間に中蓋２０を介在させて、蓋体３を容器本体２に着脱可能に嵌合するようにしてもよい。 1 to 8, the outlet 5 is formed by inclining the upper end opening of the hollow pipe 4. However, as shown in FIG. 9, a separate outlet cylinder formed by inclining the outlet 5 is shown. 19 may be fitted to the upper end of the hollow pipe 4.
Further, as shown in FIG. 9, the lid 3 may be detachably fitted to the container body 2 with an intermediate lid 20 interposed between the container body 2 and the lid 3.

図６は他の実施例を示し、中空パイプ４内の収容室７に重り１８を収容してなるもので、他の構造は上述と同様である。このように、収容室７に重り１８を収容しておけば、定量振出容器１を反転させた際に、重り１８が落下して規制壁９の下端９ｂ（反転状態では上端）に衝突する（図７）。その衝撃で中空パイプ４が振動し、粉粒状物は排出路１１の壁面に付着することなく、排出路１１から排出され易くなる。定量振出容器１内に収容する粉粒状物１２が微粉末状のものである場合には、中空パイプ４の壁面により付着し易いので特に有効である。なお、重り１８は収容室７から外に飛び出さない大きさに形成してある。 FIG. 6 shows another embodiment, in which a weight 18 is accommodated in the accommodation chamber 7 in the hollow pipe 4, and the other structure is the same as described above. Thus, if the weight 18 is accommodated in the accommodation chamber 7, when the fixed amount dispensing container 1 is inverted, the weight 18 falls and collides with the lower end 9b (the upper end in the inverted state) of the regulation wall 9 ( FIG. 7). The hollow pipe 4 is vibrated by the impact, and the particulate matter is easily discharged from the discharge path 11 without adhering to the wall surface of the discharge path 11. When the granular material 12 accommodated in the fixed amount dispensing container 1 is in the form of fine powder, it is particularly effective because it adheres more easily to the wall surface of the hollow pipe 4. The weight 18 is formed in a size that does not jump out of the storage chamber 7.

本発明の実施例による粉粒状物の定量振出容器の縦断面図。The longitudinal cross-sectional view of the fixed quantity shake-out container of the granular material by the Example of this invention. 図１のＩＩ−ＩＩ断面図。II-II sectional drawing of FIG. 粉粒状物を略満タン収容した状態の図１相当の縦断面図。The longitudinal cross-sectional view of the state equivalent to FIG. 1 of the state which accommodated the powdery granular material substantially full. 略１００°傾けた状態の説明用縦断面図。The longitudinal cross-sectional view for description of the state inclined about 100 degrees. 略１５０°傾斜させた状態の説明用縦断面図。The longitudinal cross-sectional view for description of the state inclined about 150 degrees. 他の実施例による粉粒状物の定量振出容器の縦断面図。The longitudinal cross-sectional view of the fixed quantity shake-out container of the granular material by another Example. 図６の定量振出容器を反転させた状態の縦断面図。The longitudinal cross-sectional view of the state which reversed the fixed amount shake container of FIG. さらに他の実施例による粉粒状物の定量振出容器の縦断面図。Furthermore, the longitudinal cross-sectional view of the fixed amount shake-out container of the granular material by another Example. さらに他の実施例による粉粒状物の定量振出容器の縦断面図。Furthermore, the longitudinal cross-sectional view of the fixed amount shake-out container of the granular material by another Example.

符号の説明Explanation of symbols

１ 定量振出容器
２ 容器本体
２ａ 上端開口
２ｂ 底部
３ 蓋体
４ 中空パイプ
４ａ 下端開口
５ 振出口
６ 有底の円筒（有底調節筒）
７ 収容室
８ 取入口
８ａ 下端
９ 規制壁（仕切壁）
９ａ 上端
９ｂ 下端
１０ 規制室
１１ 排出路
１１ａ 始端部
１２ 粉粒状物
１３ 係合突条
１４ 係合凹溝
１５ 雄ねじ
１６ 雌ねじ
１７ キャップ
１８ 重り
１９ 振出筒
２０ 中蓋 DESCRIPTION OF SYMBOLS 1 Fixed dispensing container 2 Container main body 2a Upper end opening 2b Bottom part 3 Cover body 4 Hollow pipe 4a Lower end opening 5 Outlet 6 Bottomed cylinder (bottomed adjustment cylinder)
7 Storage chamber 8 Inlet 8a Lower end 9 Restriction wall (partition wall)
9a Upper end 9b Lower end 10 Restriction chamber 11 Discharge path 11a Starting end part 12 Granule 13 Engagement ridge 14 Engagement groove 15 Male thread 16 Female thread 17 Cap 18 Weight 19 Shaking cylinder 20 Inner lid

Claims (3)

内部に粉粒状物を収容する容器本体と該容器本体の上端開口を塞ぐ蓋体を設け、該蓋体を上下に貫通して上端開口を振出口となし下端が容器本体の底部近くまで延びる中空パイプを設け、該中空パイプの下端開口部に上下動可能に有底調節筒を嵌合し、前記中空パイプの下部の側壁を切欠いて取入口を形成し、前記中空パイプ内に前記取入口近傍から軸方向上方に延びて上端が前記取入口側に閉じ下端が前記取入口の下端より若干下方まで延びる規制壁を設けて前記取入口側の規制室と排出路とを形成し、前記取入口と前記排出路とは前記規制壁の下端と前記有底調節筒の底部との間に形成された収容室を介して連通させてなることを特徴とする粉粒状物の定量振出容器。 A container main body that contains powder and granular materials and a lid that closes the upper end opening of the container main body are provided, and the upper end opening extends through the lid vertically and the lower end extends to the bottom of the container main body. A pipe is provided, and a bottomed adjustment cylinder is fitted to the lower end opening of the hollow pipe so as to be movable up and down, and an inlet is formed by cutting out a lower side wall of the hollow pipe, and the vicinity of the inlet is formed in the hollow pipe A restriction wall extending in the axial direction from the upper end and closing the upper end on the intake side and extending the lower end slightly below the lower end of the intake to form a restriction chamber and a discharge passage on the intake side, and the intake And the discharge passage are communicated through a storage chamber formed between a lower end of the restriction wall and a bottom of the bottomed adjustment cylinder. 中空パイプ内に重りを収容してなる請求項１に記載の粉粒状物の定量振出容器。 The quantitative shake-out container for powder and granular materials according to claim 1, wherein a weight is accommodated in the hollow pipe. 中空パイプの上端開口部にこれを塞ぐ着脱自在のキャップを備えてなる請求項１又は２に記載の粉粒状物の定量振出容器。 The fixed amount shake-out container of the granular material of Claim 1 or 2 provided with the detachable cap which plugs this at the upper-end opening part of a hollow pipe.

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