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JP2000126567A - Method and apparatus for dissolving granule - Google Patents

Method and apparatus for dissolving granule

Info

Publication number
JP2000126567A
JP2000126567A JP10305382A JP30538298A JP2000126567A JP 2000126567 A JP2000126567 A JP 2000126567A JP 10305382 A JP10305382 A JP 10305382A JP 30538298 A JP30538298 A JP 30538298A JP 2000126567 A JP2000126567 A JP 2000126567A
Authority
JP
Japan
Prior art keywords
powder
water
liquid
granules
granule
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.)
Pending
Application number
JP10305382A
Other languages
Japanese (ja)
Inventor
Masaru Takashima
優 高島
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
YUUKI SHOKAI KK
Original Assignee
YUUKI SHOKAI KK
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by YUUKI SHOKAI KK filed Critical YUUKI SHOKAI KK
Priority to JP10305382A priority Critical patent/JP2000126567A/en
Publication of JP2000126567A publication Critical patent/JP2000126567A/en
Pending legal-status Critical Current

Links

Abstract

PROBLEM TO BE SOLVED: To dissolve granules safely even when care is necessary for handling them like an acidic water generating agent by a process in which the granules are supplied to a fed solvent, the solvent is passed to a filtration part, the undissolved granules are received, exposed to a flow, and dissolved. SOLUTION: A granule dissolving apparatus 1 has a storage part 2, a pump 3, and a circulating route 4, and a granule supply part 5 and a filtration part 6 are arranged on the route 4. In the production of weakly acidic functional water, a prescribed amount of water C is put in the storage part 2, prescribed amounts of chemical agents A, B are charged into the granule supply part 5 by using a weighing/charging device 8, and the pump 3 is driven. In this way, the water C in the storage part 2 passes through the circulating route 4 and the granule supply part 5 and arrives at the filtration part 6 with the agents A, B, In the filtration part 6, only the agents A, B dissolved in the water C are allowed to pass, and the undissolved agents A, B are further exposed to the water C. The agents A, B are dissolved gradually, pass through the filtration part 6, and are returned to the storage part 2 through the route 4.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】この発明は、粉粒体を液体に
溶解する技術分野に属し、より詳しくは、短時間で簡単
に溶解が行なえ、例えば粉粒体が酸性水生成用薬剤など
のように取扱いに注意を要するようなものでも安全に溶
解できるような粉粒体溶解方法およびその装置に関す
る。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention belongs to the technical field of dissolving powders and granules in a liquid, and more particularly, to dissolving powders and granules in a short time and easily. The present invention relates to a method and an apparatus for dissolving powders and granules that can safely dissolve even those that require careful handling.

【0002】[0002]

【従来の技術】粉粒体を溶解することはあらゆる分野で
行なわれている。特に近年では、持ち運び等の便利さか
ら水に溶かせは出来上がるようなタイプのものは多い。
2. Description of the Related Art Dissolution of powders and granules is performed in all fields. Particularly in recent years, there are many types that can be dissolved in water for convenience of carrying and the like.

【0003】しかし、その溶解の方法は、液体に粉粒体
を入れたのち攪拌する方法である。溶媒や粉粒体の性質
や温度等により溶け方は異なるが、攪拌により溶解を促
進し混ざり具合を均一にするのである。溶かすといえば
攪拌を連想するほどに極当たり前の方法である。
[0003] However, the method of dissolving is a method in which a powder is added to a liquid and then stirred. The method of dissolution differs depending on the properties and temperature of the solvent and the granular material, but the dissolution is promoted by stirring to make the mixing uniform. Melting is an extremely obvious method that is reminiscent of stirring.

【0004】このため、溶液を作るときには液体に粉粒
体を投入して攪拌するということを、当然のごとく行な
うが、粉粒体が溶けにくいものであったり、取扱いに注
意を要するものであったりする場合には、いささか面倒
であった。すなわち、長い間攪拌しなければならず、ま
た、手袋を着用したりしなければらならないからであ
る。
[0004] For this reason, when a solution is prepared, the powder and granules are put into the liquid and agitated as a matter of course. However, the powder and granules are difficult to dissolve or require careful handling. Or, it was rather troublesome. That is, it is necessary to stir for a long time and to wear gloves.

【0005】取扱いに注意を要する粉粒体としては、一
例として、酸性水生成用薬剤(特開平10−81610
号参照)を挙げることができる。これは、2種類の薬剤
を所定量ずつ、所定量の水に溶解して使用するのであ
り、その溶液は殺菌水として優れた効果があるため、食
品やそれを扱う施設、一般家庭のほか、医療機関等、あ
らゆる分野で用いられるべきものであり、需要の高いも
のである。
[0005] Examples of powdery materials that require careful handling include a chemical for producing acidic water (JP-A-10-81610).
No.). In this method, two types of drugs are used by dissolving them in a predetermined amount of water in a predetermined amount, and the solution has an excellent effect as sterilized water. It should be used in all fields, such as medical institutions, and is in high demand.

【0006】しかし2種類あるうちの一方の薬剤は高度
サラシ粉からなり、塩素ガスを発生するために取扱いに
注意が必要であり、また2種類の薬剤が混ざった上に水
分が混入すると、より一そう塩素ガスを発生する。その
上、水に溶かす時には、溶けにくいため、水に投入して
から3分程放置し、すべて完全にとけるまで目で見て攪
拌し泣けばならないので、時間も手間もかかる。また、
上述のように各薬剤は水に触れてはならないので、保管
にも注意が必要である。
[0006] However, one of the two types of chemicals is composed of high-grade powder and requires careful handling in order to generate chlorine gas. Generates chlorine gas. In addition, when it is dissolved in water, it is difficult to dissolve, so it needs to be left for about 3 minutes after pouring it into water, and it must be visually stirred and cry until it is completely melted, which takes time and effort. Also,
As noted above, each drug must not be exposed to water, so care must be taken in storage.

【0007】このように使用が広く要求されるものの、
利用がしにくい難点があった。
[0007] Although such use is widely required,
There was a difficulty that was difficult to use.

【0008】[0008]

【解決すべき課題及びそのための手段】そこでこの発明
は、溶解が簡単に行なえ、特に酸性水生成用薬剤のよう
に取扱いに注意を要するものであっても安全に溶解でき
利用し易くするような粉粒体溶解方法およびその装置の
提供を主たる課題とする。
SUMMARY OF THE INVENTION Accordingly, the present invention provides a method for dissolving easily, and in particular, for dissolving safely and easily using even those that require careful handling such as chemicals for producing acidic water. A main object is to provide a method for dissolving powder and granules and an apparatus therefor.

【0009】そのための手段は、送り出された溶媒とし
ての液体に対し、粉粒体供給部で粉粒体を供給し、該粉
粒体が供給された液体をろ過部に通して、未溶解の粉粒
体を受け止めて流れに晒し溶解する粉粒体溶解方法であ
ることを特徴とする。
Means for this purpose are to supply the granular material to the sent liquid as a solvent in a granular material supply unit, and to pass the liquid supplied with the granular material through a filtration unit to remove undissolved liquid. The method is characterized in that the method is a method of dissolving the powder and granules in which the powders are received, exposed to a flow and dissolved.

【0010】なお、前記ろ過部を通過した液体は循環さ
せるとよい。
[0010] The liquid that has passed through the filtration section is preferably circulated.

【0011】また、前記粉粒体には、酸性水を生成する
酸性水生成用薬剤を用いるとよい。
Further, it is preferable to use a chemical for generating acidic water which generates acidic water for the powder.

【0012】また別の手段は、溶媒としての液体をため
る貯溜部を設けるとともに、該貯溜部には液体を循環さ
せる循環路を形成し、該循環路上に、液体に対して粉粒
体を供給する粉粒体供給部、および液体は通すが粉粒体
を通さない細かい目を有したろ過部を、上手側から順に
配設した粉粒体溶解装置であることを特徴とする。
Another means is to provide a reservoir for storing a liquid as a solvent, form a circulation path in the reservoir for circulating the liquid, and supply the powdery or granular material to the liquid on the circulation path. This is characterized in that it is a powder / particle dissolving apparatus in which a fine / granular material supply unit and a filtration unit having fine meshes that allow liquid to pass through but do not pass through the fine particles are arranged in order from the upper side.

【0013】なお、前記粉粒体供給部には、所定量の粉
粒体を計量して投入する計量投入手段を付設するとよ
い。
It is preferable that the powder supply unit is provided with a metering means for metering and feeding a predetermined amount of powder.

【0014】[0014]

【作用及び効果】すなわち、上述の構成によれば、溶媒
としての液体が送り出されたのち粉粒体供給部で粉粒体
が供給され、粉粒体を溶かしながら液体はさらに送られ
ろ過部に達する。すると未だ溶けいない粉粒体はろ過部
によって受け止められ通過を阻止されるとともに流れる
液体に晒される。この晒されている時に粉粒体は徐々に
溶かされ、ろ過部を通過して行く。
According to the above construction, after the liquid as the solvent is sent out, the powder is supplied in the powder supply section, and the liquid is further fed while dissolving the powder to the filtration section. Reach. Then, the undissolved powdery granules are received by the filtration unit, are blocked from passing, and are exposed to the flowing liquid. During this exposure, the granules gradually dissolve and pass through the filtration section.

【0015】このようにして溶解が行なわれるので、従
来のように手や機械で攪拌するということが不要であ
り、極簡単に溶解が行なえる。しかも、攪拌する場合に
比して泡立ったりしないため、溶液の種類や用途にかか
わらず使用しやすい。
Since the dissolution is performed in this manner, it is not necessary to stir by hand or machine as in the conventional method, and the dissolution can be performed very easily. Moreover, since foaming does not occur as compared with the case of stirring, it is easy to use regardless of the type and use of the solution.

【0016】また、閉鎖した系で溶解をすることができ
るので、例えば酸性水生成用薬剤のように取扱いに注意
を要するものであっても安全に溶解でき利用し易い。こ
のため、使用を求められる優れた粉粒体を眠らさずに済
み、利用を促進できる。
Further, since the dissolution can be carried out in a closed system, even those requiring caution in handling, such as chemicals for producing acidic water, can be safely dissolved and easily used. For this reason, it is possible to prevent the use of the excellent powders and granules that need to be used and to promote the use thereof.

【0017】[0017]

【実施例】この発明の一実施例を以下図面に基づいて詳
述する。図1は粉粒体を溶解するための粉粒体溶解装置
1(以下、装置という)の構成図であり、この装置1
は、粉粒体なら何でも溶解することができるが、特に弱
酸性機能水生成用粉末剤(以下、薬剤A,B)を溶解す
るのに都合がよい。この一実施例では、上記薬剤A,B
を溶解する例を示す。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a configuration diagram of a powder / particle dissolving apparatus 1 (hereinafter, referred to as an apparatus) for dissolving a powder / particle.
Can be dissolved as long as it is a granular material, but it is particularly convenient for dissolving a powdery agent for generating weakly acidic functional water (hereinafter, agents A and B). In this embodiment, the medicines A and B are used.
An example of dissolving is shown.

【0018】装置1は、溶媒としての水Cをためる貯溜
部2と、該貯溜部2内の水を汲み出すためのポンプ3
と、汲み出した水を貯溜部2内へ戻す循環路4とを有
し、該循環路4上には、流れる水に粉粒体としての薬剤
A,Bを供給する粉粒体供給部5と、液体は通すが未溶
解の粉粒体(薬剤A,B)は通さないろ過部6とを上手
側から順に配設して構成している。
The apparatus 1 comprises a reservoir 2 for storing water C as a solvent, and a pump 3 for pumping water from the reservoir 2.
And a circulation path 4 for returning the pumped water into the storage section 2. On the circulation path 4, there is provided a powder and granule supply section 5 for supplying medicines A and B as powder and granules to flowing water; And a filtration unit 6 that allows liquid to pass through but does not allow undissolved powders (medicines A and B) to pass through in order from the upper side.

【0019】上記貯溜部2は、所定量の水を入れる部位
であるとともに、溶液がたまる部位である。水Cと薬剤
A,Bは所定量の割合で混ぜる必要があるので、貯溜部
2には適正な量の水Cが入るようにしている。目盛りを
形成するもよいが、図示したように液面検出センサ7も
設けておき、水が所定量ある時以外にはスイッチを入れ
てもポンプ3が駆動しないようにしておくと、適正な溶
液を得ることができるのでよい。
The storage section 2 is a section for storing a predetermined amount of water and a section for storing a solution. Since the water C and the chemicals A and B need to be mixed at a predetermined ratio, the storage unit 2 is designed to receive an appropriate amount of water C. Although a scale may be formed, a liquid level detection sensor 7 is also provided as shown in the figure, and if the pump 3 is not driven even when the switch is turned on except when there is a predetermined amount of water, an appropriate solution Is good.

【0020】上記粉体供給部5は、水の入口5aと出口
5bを設けた栓体5c付きの容器からなり、薬剤に触れ
ることなく所定量の薬剤を容器に投入できるようにすべ
く、計量投入器8(軽量投入手段)を備えている。この計
量投入器8は、例えば図2に示したように上部にホッパ
ー8aを、下部には計量部8bを有した構造に形成する
とよい。薬剤A,Bは2種類あるのでホッパー8aは2
つに仕切るとともに、投入する薬剤A,Bの量も異なる
ので、計量部位の大きさも違えている(図3参照)。
The powder supply section 5 is composed of a container provided with a stopper 5c provided with an inlet 5a and an outlet 5b for water, and measures a predetermined amount of medicine into the container without touching the medicine. An input device 8 (light-weight input means) is provided. The weighing device 8 may be formed in a structure having a hopper 8a at an upper portion and a weighing portion 8b at a lower portion, for example, as shown in FIG. Since there are two types of drugs A and B, the hopper 8a
Since the amounts of the medicines A and B to be charged are different from each other, the sizes of the measuring parts are also different (see FIG. 3).

【0021】計量部8bは、本体部9内にスライダ10
を保持した構成で、本体部9の上部にはホッパー8aに
連通する連通路11a,11bを2つ形成している。ま
たスライダ10は、上記連通路11a,11b直下の計
量器部10aと、これより下に隙間を隔てて平行に並ぶ
開閉板部10bとを有している。前者の計量器部10a
には、上記連通路11a,11bと連通して所定量の薬
剤A,Bを入れる2つの計量孔12a,12bを縦に貫
通して形成し、また開閉板部10bの計量孔12a,1
2b対応部位には、一つの排出口13を形成している。
薬剤A,Bの量は、計量孔12a,12bの径と長さで
設定する。また、上記計量器部10aと開閉板部10b
との間に位置する本体9の一部は、遮断部9aで、上記
計量器部10aの計量孔12a,12bと同径の連通孔
14a,14bを縦に貫通形成している(図4参照)。
The measuring section 8b includes a slider 10 inside the main body 9.
And two communication paths 11a and 11b communicating with the hopper 8a are formed in the upper part of the main body 9. The slider 10 has a measuring unit 10a immediately below the communication passages 11a and 11b, and an opening / closing plate 10b arranged below and parallel to the measuring unit 10a with a gap therebetween. The former measuring unit 10a
Are formed vertically through two measuring holes 12a, 12b which communicate with the communication passages 11a, 11b and receive a predetermined amount of medicines A, B, and also have measuring holes 12a, 1 in the opening / closing plate 10b.
One outlet 13 is formed in the portion corresponding to 2b.
The amounts of the medicines A and B are set by the diameters and lengths of the measurement holes 12a and 12b. The measuring unit 10a and the opening / closing plate 10b
A portion of the main body 9 positioned between the measuring unit 10a and the measuring unit 12a is formed with a communication hole 14a, 14b having the same diameter as the blocking hole 9a. ).

【0022】すなわち、図5に示したスライダ10収納
状態では、計量孔12a,12bにまで薬剤A,Bが入
っているが、本体部9の遮断部9aで遮断されているの
で、排出されない。しかしスライダ10を手前に引く
と、図6に示したように計量孔12a,12bが、本体
9の遮断部9aに形成した上記連通孔14a,14bと
重なり、開閉板部10bの排出口13を介して薬剤A,
Bは排出される。本体部9の上部手前側に形成したの
は、スライダ10を引く位置を規制するストッパ15で
あり、また、スライダ10の下面に設けたのは、前記粉
粒体供給部5の栓体5cである。この栓体5cの側に
は、図7に示したようにスイッチ16を設けて、粉粒体
供給部5の着脱の有無を検出するようにするとよい。す
なわち粉粒体供給部5に薬剤を投入しても栓体5cを付
けていないときにはポンプ3を駆動させないようにして
安全性を高めることができる。
That is, in the storage state of the slider 10 shown in FIG. 5, the medicines A and B enter the measuring holes 12a and 12b, but are not discharged because they are blocked by the blocking portion 9a of the main body 9. However, when the slider 10 is pulled toward the user, the measuring holes 12a and 12b overlap the communication holes 14a and 14b formed in the blocking portion 9a of the main body 9 as shown in FIG. Via drug A,
B is discharged. A stopper 15 that regulates a position where the slider 10 is pulled is formed on the upper front side of the main body 9, and a stopper 5 c of the powder supply unit 5 is provided on a lower surface of the slider 10. is there. A switch 16 may be provided on the side of the plug 5c as shown in FIG. 7 to detect whether or not the powder supply unit 5 is attached or detached. In other words, even if the medicine is supplied to the granular material supply unit 5, the safety can be improved by not driving the pump 3 when the stopper 5c is not attached.

【0023】前記ろ過部6は、図8に示したように、水
の入口6aと出口6bを有したケース17内にフィルタ
18を備えた構成である。ケース17とフィルタ18と
の間には粉粒体A,Bが浮遊可能な空間を設けるほうが
よい。
As shown in FIG. 8, the filtering section 6 has a structure in which a filter 18 is provided in a case 17 having an inlet 6a and an outlet 6b for water. It is preferable to provide a space between the case 17 and the filter 18 in which the powders A and B can float.

【0024】このように構成した装置1での弱酸性機能
水生成は、まず貯溜部2に所定量の水Cを入れるととも
に、計量投入器8を用いて粉粒体供給部5に所定量の薬
剤A,Bを投入する。そして、ポンプ3を駆動すればよ
い。
The generation of the weakly acidic functional water in the apparatus 1 configured as described above is performed by firstly adding a predetermined amount of water C to the storage unit 2 and using the metering charging device 8 to supply the predetermined amount of water C to the granular material supply unit 5. Drugs A and B are introduced. Then, the pump 3 may be driven.

【0025】ポンプ3の駆動により、貯溜部2から汲み
出された水Cは、循環路4を通って、粉粒体供給部5に
入り、薬剤A,Bとともに出る。そしてろ過部6に到達
する。ろ過部6では水に解けた薬剤A,Bのみ通過し、
溶けないものはフィルタ18に遮られ、ケース17とフ
ィルタ18との間の空間で浮遊したりしながら流れる水
に晒される。この晒されている時に薬剤A,Bは徐々に
溶かされ、順次ろ過部6を通過して行く。
The water C pumped out of the reservoir 2 by the operation of the pump 3 passes through the circulation path 4 and enters the granular material supply section 5 and exits together with the medicines A and B. Then, it reaches the filtration unit 6. In the filtration unit 6, only the drugs A and B dissolved in water pass,
Insoluble matter is blocked by the filter 18 and is exposed to flowing water while floating in the space between the case 17 and the filter 18. During this exposure, the medicines A and B are gradually dissolved, and sequentially pass through the filtration unit 6.

【0026】ろ過部6を出た溶液は、循環路4を通って
貯溜部2に戻る。貯溜部2からは水や溶液がポンプ3に
より汲み出され、ろ過部6を通って循環しているので、
初めは薄い溶液でも全部の薬剤A,Bが溶けるときには
所定の濃度になる。
The solution that has exited the filtration section 6 returns to the storage section 2 through the circulation path 4. Since water and solution are pumped out of the storage unit 2 by the pump 3 and circulated through the filtration unit 6,
At first, when all the drugs A and B are dissolved even in a thin solution, the concentration becomes a predetermined concentration.

【0027】このようにして溶解が行なわれるので、従
来のように手や機械で攪拌するということが不要であ
り、また、薬剤A,Bを投入してから暫く待つというよ
うなことも不要であるので、極簡単に溶解が行なえる。
しかも、大量の溶液を簡単に得ることができる。
Since the dissolution is performed in this manner, it is not necessary to stir by hand or machine as in the related art, and it is not necessary to wait for a while after adding the drugs A and B. It is extremely easy to dissolve.
Moreover, a large amount of solution can be easily obtained.

【0028】また、粉粒体供給部5には計量投入器8を
設けて薬剤には触れずに済むようにしているとともに、
閉鎖した系で溶解ができるので、前述のような取扱いに
注意を要する薬剤A,Bであっても安全に溶解でき利用
し易い。このため、使用を求められる優れた薬剤A,B
を眠らさずに済み、利用を促進できる。
Further, a measuring and charging device 8 is provided in the powder and granular material supply section 5 so as not to touch the medicine.
Since it is possible to dissolve in a closed system, even the medicines A and B which require careful handling as described above can be safely dissolved and easily used. Therefore, excellent drugs A and B which are required to be used
You don't have to sleep and can promote usage.

【0029】さらに、計量投入器8を設けているので、
購入した薬剤はすぐにホッパーに入れておけばよく、特
に保存に注意を要しないですむようにすることができ、
使用時には計量投入器8を極簡単な手順で操作すればよ
い。また、粉粒体供給部5には薬剤を投入するものの、
その薬剤は溶液ができる頃には無くなっているので、栓
体5cの着脱操作は安全である。
Further, since the metering input device 8 is provided,
It is good to put the purchased medicine in the hopper immediately, so that you do not need to pay special attention to storage,
At the time of use, the metering input device 8 may be operated in a very simple procedure. In addition, although the medicine is supplied to the powder supply unit 5,
Since the medicine is gone by the time the solution is formed, the attaching and detaching operation of the plug 5c is safe.

【0030】なお、計量投入器には上記構成の物の他、
回転により計量して投入するロータリ式の物などを採用
することもできる。
In addition to the components having the above-described configuration,
It is also possible to adopt a rotary type material which is measured and fed by rotation.

【図面の簡単な説明】[Brief description of the drawings]

【図1】 粉粒体溶解装置の構成図。FIG. 1 is a configuration diagram of a granular material dissolving apparatus.

【図2】 計量投入器の斜視図。FIG. 2 is a perspective view of a weighing device.

【図3】 計量投入器の断面図。FIG. 3 is a sectional view of a weighing device.

【図4】 計量投入器の断面図。FIG. 4 is a sectional view of a weighing input device.

【図5】 計量投入器の作用状態の断面図。FIG. 5 is a sectional view of an operation state of the metering input device.

【図6】 計量投入器の作用状態の断面図。FIG. 6 is a sectional view of an operation state of the metering input device.

【図7】 粉粒体供給部の一部の側面図。FIG. 7 is a side view of a part of the granular material supply unit.

【図8】 ろ過部およびその作用状態を示す説明図。FIG. 8 is an explanatory view showing a filtration unit and an operation state thereof.

【符号の説明】[Explanation of symbols]

1…粉粒体溶解装置 2…貯溜部 4…循環路 5…粉粒体供給部 6…ろ過部 8…計量投入器 A,B…弱酸性機能水生成用粉末剤(粉粒体) C…水(液体) DESCRIPTION OF SYMBOLS 1 ... Granule dissolution apparatus 2 ... Storage part 4 ... Circulation path 5 ... Granule supply part 6 ... Filtration part 8 ... Metering input device A, B ... Powder agent (powdery body) for generating weakly acidic functional water C ... Water (liquid)

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】送り出された溶媒としての液体に対し、粉
粒体供給部で粉粒体を供給し、該粉粒体が供給された液
体をろ過部に通して、未溶解の粉粒体を受け止めて流れ
に晒し溶解する粉粒体溶解方法。
1. A powder and granules are supplied to a liquid as a solvent sent out by a powder and granules supply section, and the liquid to which the powder and granules are supplied is passed through a filtration section to obtain undissolved powder and granules. A powder / particle dissolving method that receives and exposes it to a flow to dissolve it.
【請求項2】前記ろ過部を通過した液体を循環させる請
求項1記載の粉粒体溶解方法。
2. The method according to claim 1, wherein the liquid passing through the filtration section is circulated.
【請求項3】前記粉粒体に、酸性水を生成する酸性水生
成用薬剤を用いる請求項1または請求項2に記載の粉粒
体溶解方法。
3. The method for dissolving a granular material according to claim 1, wherein an acidic water generating agent for generating acidic water is used for the granular material.
【請求項4】溶媒としての液体をためる貯溜部を設ける
とともに、該貯溜部には液体を循環させる循環路を形成
し、該循環路上に、液体に対して粉粒体を供給する粉粒
体供給部、および液体は通すが粉粒体を通さない細かい
目を有したろ過部を、上手側から順に配設した粉粒体溶
解装置。
4. A storage medium for storing a liquid as a solvent, a circulation path for circulating the liquid is formed in the storage section, and a powdery or granular material for supplying the liquid to the liquid on the circulation path. A powder and granule dissolving apparatus in which a supply unit and a filtration unit having fine eyes that allow liquid to pass through but do not pass through the powder and granule are arranged in order from the top.
【請求項5】前記粉粒体供給部に、所定量の粉粒体を計
量して投入する計量投入手段を付設した請求項3記載の
粉粒体溶解装置。
5. A powder and granule dissolving apparatus according to claim 3, wherein said powder and granule supply section is provided with a metering and charging means for measuring and charging a predetermined amount of the powder and granules.
JP10305382A 1998-10-27 1998-10-27 Method and apparatus for dissolving granule Pending JP2000126567A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP10305382A JP2000126567A (en) 1998-10-27 1998-10-27 Method and apparatus for dissolving granule

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP10305382A JP2000126567A (en) 1998-10-27 1998-10-27 Method and apparatus for dissolving granule

Publications (1)

Publication Number Publication Date
JP2000126567A true JP2000126567A (en) 2000-05-09

Family

ID=17944456

Family Applications (1)

Application Number Title Priority Date Filing Date
JP10305382A Pending JP2000126567A (en) 1998-10-27 1998-10-27 Method and apparatus for dissolving granule

Country Status (1)

Country Link
JP (1) JP2000126567A (en)

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