JPS59183821A - Automatic liquid blender - Google Patents
Automatic liquid blenderInfo
- Publication number
- JPS59183821A JPS59183821A JP58058748A JP5874883A JPS59183821A JP S59183821 A JPS59183821 A JP S59183821A JP 58058748 A JP58058748 A JP 58058748A JP 5874883 A JP5874883 A JP 5874883A JP S59183821 A JPS59183821 A JP S59183821A
- Authority
- JP
- Japan
- Prior art keywords
- liquid
- container
- mixed
- port
- outlet
- 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.)
- Granted
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/80—Forming a predetermined ratio of the substances to be mixed
- B01F35/88—Forming a predetermined ratio of the substances to be mixed by feeding the materials batchwise
Landscapes
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Accessory Of Washing/Drying Machine, Commercial Washing/Drying Machine, Other Washing/Drying Machine (AREA)
- Cleaning By Liquid Or Steam (AREA)
- Accessories For Mixers (AREA)
- Cleaning And De-Greasing Of Metallic Materials By Chemical Methods (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は複数の種類の液を定量の比率で配合して供給す
る自動式液配合装置に関する。更に詳述すると、動力機
器、計装機器、弁等をなるべ(使用しないで複数の種類
の液体を自動的に配合、供給スルコンパクトで経済的な
装置に関するものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an automatic liquid blending device that mixes and supplies a plurality of types of liquids at fixed ratios. More specifically, it relates to a compact and economical device that automatically mixes and supplies multiple types of liquids without using power equipment, instrumentation equipment, valves, etc.
従来、二種類以上の液体を定量の比率で配合する装置の
1例を示すと第1図の通りであり、先ずA液貯槽からポ
ンプP1でA液をA液定量槽へ送入し、所定量流入する
と弁が閉じて供給を停止し、次いでポンプP2で配合槽
へ所定量のAiを供給する。同様にしてB液の所定量を
配合槽へ供給し、供給終了層ポンプP5でA液とB液の
混合液を目的の個所へ供給する方法が行われている。し
かし、この装置は多くの槽、ポンプ、レベルW報計20
、弁等を要し、装置が大型化、複雑化して設備費が高い
という欠点がある。An example of a conventional device for blending two or more types of liquids in fixed ratios is shown in Fig. 1. First, liquid A is sent from a liquid A storage tank to a liquid A metering tank using a pump P1, and then When a fixed amount of Ai flows in, the valve closes to stop the supply, and then pump P2 supplies a predetermined amount of Ai to the mixing tank. Similarly, a method is used in which a predetermined amount of liquid B is supplied to the mixing tank, and a mixed liquid of liquids A and B is supplied to the target location using the supply end pump P5. However, this device requires many tanks, pumps, level W information meters, etc.
, valves, etc. are required, making the device large and complex, resulting in high equipment costs.
本発明者等はこの様な従来の装置の欠点を解決するため
に研究を行った結果、種類の異なる液体を収容した複数
個の容器を高さの異った位置に設置することにより生ず
る落差を利用した簡単な装置を用(・ることにより所望
の配合比の混合液を得ることができることを知見し本発
明を完成したものである。The inventors of the present invention conducted research to solve the drawbacks of such conventional devices, and as a result, they found that the head difference caused by installing multiple containers containing different types of liquid at different heights. The present invention was completed based on the finding that a mixed solution with a desired mixing ratio could be obtained by using a simple device using a simple device.
即ち、本発明は
A液が所定量流入すると重心が移動して傾斜し、該A液
が排出されると傾斜が復元される様に構成されたA液傾
斜容器2と、下部にB液出口3を設けた密閉B液容器4
と、該B液出口3より配合器9のB液入口6への定量輸
送手段と、上方に均圧口24を設けた凹成部7にA液傾
斜容器2を設け、B液入口6の上部に少なくともA液流
入量を収容する容積を有し、かつ下部にA液とB液の混
合液を流出する混合液出口8を設けた配合器9と、中間
部10を混合液ヘッド11とB液入口6の間の高さに半
固定し、端部12を混合液出口8に連結させたサイホン
管13とからなることを特徴とする自動式液配合装置で
ある。That is, the present invention provides a liquid A tilting container 2 configured such that the center of gravity moves and tilts when a predetermined amount of liquid A flows in, and the slope is restored when the liquid A is discharged, and a liquid B outlet at the bottom. Sealed B liquid container 4 equipped with 3
A metering means for transporting liquid from the B liquid outlet 3 to the B liquid inlet 6 of the mixer 9, a liquid A inclined container 2 in the recessed part 7 having a pressure equalization port 24 above, and a liquid B inlet 6. A mixer 9 has an upper part having a volume that accommodates at least the inflow of liquid A, and a lower part provided with a mixed liquid outlet 8 from which a mixed liquid of liquids A and B flows out, and an intermediate part 10 with a mixed liquid head 11. This is an automatic liquid blending device characterized by comprising a siphon pipe 13 that is semi-fixed at a height between the B liquid inlets 6 and whose end 12 is connected to the mixed liquid outlet 8.
以下、図面に基づいて本発明の詳細な説明する。Hereinafter, the present invention will be described in detail based on the drawings.
第2図は本発明の自動式液配合装置の1実施例を示す説
明図である。FIG. 2 is an explanatory diagram showing one embodiment of the automatic liquid blending device of the present invention.
第2図にお℃・て、舟形容器の底部の中央部と後部とを
支持し、A液入口14からA液が所定量流入すると重心
が移動して傾斜し、底部の後部が上がり、前部が下って
係止片]に係合して静止し、A液が排出されると元の位
置に傾斜が復元される様に構成されたA液傾斜容器2と
、下部好ましくは底面にB′e、出口3を設けた密閉B
液容器4と、該B液出口:3より配合器9のB液出口3
より低位置に設けたB液入口6へ途中に凹部を形成しな
いで連結されたB液配管5と、開口又は均圧管と連結し
て形成された均圧口24を上方に設けた凹成部7にA液
傾斜容器2を設け、B液入口6の上部に少くともA液傾
斜容器から排出される容量のA液流入量を収容する容積
を有し、かつ下部好ましくは底面にA液とB液の混合液
を流出する混合液出口8を設けた配合器9と、中間部1
0を混合液−・ラド11とB液入口6との間の高さに半
固定し、一端部12を配合器9の混合液出口8に連結さ
せ、他端部のサイホン出口15を受液装置(図示せず)
に連結させたサイホン管13とからなる自動式液配合装
置である。As shown in Fig. 2, the center and rear part of the bottom of a boat-shaped container are supported at ℃, and when a predetermined amount of liquid A flows in from the liquid A inlet 14, the center of gravity shifts and tilts, the rear part of the bottom rises, and the front A liquid inclined container 2 is configured such that the part lowers and engages with the locking piece and becomes stationary, and the slope is restored to the original position when liquid A is discharged, and 'e, closed B with outlet 3
From the liquid container 4 and the B liquid outlet: 3, the B liquid outlet 3 of the blender 9
B liquid pipe 5 connected to the B liquid inlet 6 provided at a lower position without forming a recess on the way, and a recessed part provided above with a pressure equalizing port 24 formed by connecting with an opening or a pressure equalizing pipe. 7 is provided with a liquid A inclined container 2, the upper part of the liquid B inlet 6 has a volume that accommodates the inflow of liquid A equal to the volume discharged from the liquid A inclined container, and the lower part, preferably the bottom, is provided with liquid A and A blender 9 provided with a mixed liquid outlet 8 for outflowing the mixed liquid of liquid B, and an intermediate part 1
0 is semi-fixed at a height between the mixed liquid Rad 11 and the B liquid inlet 6, one end 12 is connected to the mixed liquid outlet 8 of the mixer 9, and the siphon outlet 15 at the other end is connected to the liquid receiving side. Equipment (not shown)
This is an automatic liquid blending device consisting of a siphon pipe 13 connected to the siphon pipe 13.
A液傾斜容器は配合器に内蔵してもよし・し、又は配合
器と別に設け、配合器上部からA液が流入する様に形成
した独立式のものでもよい。The liquid A inclined container may be built into the mixer, or it may be an independent type provided separately from the mixer so that the liquid A flows from the top of the mixer.
A液とB液の配合割合は配合器に設けられるB液入口の
ヘッド(高さ)を可変式にして移動することによりB液
の量を変え、又A液傾斜容器の重心の位置、形状又は容
量を変えてA液の量を変えることにより所望の配合比を
選定することができる。The mixing ratio of liquid A and liquid B can be determined by changing the amount of liquid B by moving the head (height) of the liquid B inlet installed in the mixer, and by changing the position and shape of the center of gravity of the liquid A tilting container. Alternatively, a desired blending ratio can be selected by changing the volume and the amount of liquid A.
本発明におけるヘッド(高さ)の関係は、サイホン出口
15〈混合液出口8<E液入口6〈サイホン中間部10
〈混合液ヘッド11〈A液傾斜容器2及びB液入口6<
E液出口30条件を満足する必要がある。The head (height) relationship in the present invention is as follows: siphon outlet 15<mixed liquid outlet 8<E liquid inlet 6<siphon middle part 10
<Mixed liquid head 11 <A liquid inclined container 2 and B liquid inlet 6 <
It is necessary to satisfy the E liquid outlet 30 conditions.
容量の関係は配合儀容量■□〉A液傾斜容器容旦V2+
Bi容量V8(配合器のB液入口以下の部分に収容され
る容量)の条件を満足する必要がある。The relationship of capacity is compounding capacity ■□〉A liquid inclined container capacity V2+
It is necessary to satisfy the condition of Bi capacity V8 (capacity accommodated in the portion below the B liquid inlet of the mixer).
本発明の自動式液配合装置を運転する際の時間の関係は
(A液傾斜容器容量V2とB液容量v8とからなる混合
液がサイポン管13を通り配合器9から流出する時間)
+(密閉B液容器4から配合器9へB液v5かたまる時
間)〈(A液がA液傾斜容器2にたまる時間)の条件を
満足する必要があり、この条件を満足する様にA液傾斜
容器の容量、A液入口、B液配管及びサイホン管の口径
を選定する必要がある。−例を示すとA液傾斜容器0.
87、A液入口の口径(内径) 12.7mm、 B液
配管9、4 m及びサイホン管16.1 mmである。The time relationship when operating the automatic liquid blending device of the present invention is (the time it takes for the mixed liquid consisting of the tilted A liquid container volume V2 and the B liquid volume v8 to flow out from the mixer 9 through the Sipon pipe 13).
It is necessary to satisfy the following conditions: + (time for B liquid v5 to accumulate from the sealed liquid B container 4 to mixer 9) <(time for liquid A to accumulate in liquid A inclined container 2) It is necessary to select the capacity of the inclined container, the diameter of the A liquid inlet, the B liquid piping, and the siphon pipe. - For example, liquid A tilt container 0.
87, the diameter (inner diameter) of the A liquid inlet is 12.7 mm, the B liquid piping is 9.4 m, and the siphon pipe is 16.1 mm.
又、B液配管の口径はB液入口よりB液容器に大気が通
気しB液が降下するためにB液が管内で通気を妨害しな
い必要があり少くとも内径3 mm以上が好まし℃・。In addition, the diameter of the B liquid piping is preferably at least 3 mm or more because the atmosphere is vented into the B liquid container from the B liquid inlet and the B liquid descends, so that the B liquid must not obstruct the ventilation within the pipe. .
又、上記の通気を円滑に行なうため、B液配管5を2本
に分けるか或は二重管にして一方を通気専用、他方を液
流下専用とすることもできる。Further, in order to perform the above-mentioned ventilation smoothly, the B liquid piping 5 can be divided into two pipes, or can be made into a double pipe, one of which is used exclusively for ventilation and the other used only for liquid flow.
サイホン出口に連結される受液装置(図示せず)内の圧
力はサイホン作用により給液されるために1気圧以下が
好ましく、受液装置は本発明の自動式液配合装置よりも
低い位置に設置される必要がある。密閉B液容器は大気
圧により約1 kg/cm2の圧力を外部から受けるの
で、この圧力に耐えうる強度を有する必要がある。又、
密閉B液容器は通常B液を収納して市販されている石油
缶等のコンテナーを逆さにしてそのままの状態で使用し
てもよい。The pressure in the liquid receiving device (not shown) connected to the siphon outlet is preferably 1 atm or less because the liquid is supplied by the siphon action, and the liquid receiving device is located at a lower position than the automatic liquid blending device of the present invention. need to be installed. Since the sealed liquid B container is subjected to an external pressure of approximately 1 kg/cm 2 due to atmospheric pressure, it needs to have the strength to withstand this pressure. or,
The sealed liquid B container may be a commercially available container such as an oil can that normally stores liquid B and may be used as it is by turning it upside down.
次に、第2図に示す装置を用℃・て複数の液を配合する
方法を説明する。Next, a method of blending a plurality of liquids using the apparatus shown in FIG. 2 at °C will be explained.
容器内にB液を保持し全体を密閉され、上部が真空状態
に維持されている密閉B液容器4は上方が大気中に開放
されている配合器9とB液配管5で連通されているので
、弁16を開いて大気をB液入口6からB液配管5を通
り真空部17に通気させると、B液は配合器9へ流入し
B液の液レベルがB液入口6に達すると大気の通気が遮
断されB液の流入が停止する。この際配合器9に流入し
たB液と同容積の大気が密閉B液容器へ通気される。The sealed B liquid container 4, which holds B liquid in the container and is entirely sealed and whose upper part is maintained in a vacuum state, is communicated with a blender 9 whose upper part is open to the atmosphere through a B liquid pipe 5. Therefore, when the valve 16 is opened and the atmosphere is vented from the B liquid inlet 6 through the B liquid piping 5 to the vacuum section 17, the B liquid flows into the mixer 9 and when the level of the B liquid reaches the B liquid inlet 6. Atmospheric ventilation is cut off and the inflow of B liquid is stopped. At this time, the same volume of air as the B liquid that has flowed into the blender 9 is vented into the sealed B liquid container.
一方、A液はA液入口14よりA液傾斜容器2へ流入し
、所定量に達すると、その重量により天秤式にA液傾斜
容器2が傾斜し、たまったA液は配合器9へ排出されて
B液と混合する。この際混合液の高さはサイホン中間部
1oより高(・混合液レベル11に達する。弁18を開
くとサイホン管13においてサイホン現象が起り配合器
9内のA液とB液との混合液は全て混合液出口8かも排
出される。混合液が排出しB液入口6を通過するとB液
は配合器9へ流入を開始する。この場合、サイホン管か
らの混合液の排出量はB液の流入量に比べてはるかに多
いので混合液の配合比にはほとんど影響がない。On the other hand, the A liquid flows into the A liquid inclined container 2 from the A liquid inlet 14, and when it reaches a predetermined amount, the A liquid inclined container 2 is inclined in a scale-like manner due to its weight, and the accumulated A liquid is discharged to the blender 9. and mix with liquid B. At this time, the height of the mixed liquid is higher than the middle part 1o of the siphon (the mixed liquid level 11 is reached. When the valve 18 is opened, a siphon phenomenon occurs in the siphon pipe 13, and the mixed liquid of liquid A and liquid B in the mixer 9 All of the mixed liquid is also discharged from the mixed liquid outlet 8. When the mixed liquid is discharged and passes through the B liquid inlet 6, the B liquid starts flowing into the mixer 9. In this case, the amount of mixed liquid discharged from the siphon pipe is B liquid. Since this amount is much larger than that of the inflow amount, it has almost no effect on the blending ratio of the mixed liquid.
他方、傾斜してA液を排出したA液傾斜容器2は自重で
元の水平位置に戻り新たに流入してくるA液を収容する
状態に復元する。以上の様なサイクルを繰り返し所望の
配合比の混合液を連続的に得ることができる。この場合
弁16.18はなくてもよいし、あるいは開いた状態に
保ってもよい。On the other hand, the A-liquid inclined container 2, which has been tilted to discharge A-liquid, returns to its original horizontal position by its own weight and is restored to a state in which it can accommodate newly flowing A-liquid. The above-described cycle can be repeated to continuously obtain a liquid mixture having a desired blending ratio. In this case the valves 16,18 may be absent or may remain open.
第3図は本発明に係わる自動式液配合装置の他の実施例
を示す説明図である。同第3図はB液出口3より配合器
9のB液入口6への定量輸送手段としてポンプ19を用
いてB液を配合器へ供給する装置であり、B液容器4a
の下部にB液出口3を上部に通気口23を設け、B液出
口3と配合器9のB液入口6とをB液配管5でポンプ1
9を介して連結し、該Bl入口6の上下の所定位置にポ
ンプ19へ運転の開始及び停止の信号を送るB液レベル
警報計20a、20bを設けた以外は第2図と同様に構
成されてなるものである。FIG. 3 is an explanatory diagram showing another embodiment of the automatic liquid blending device according to the present invention. FIG. 3 shows a device for supplying liquid B to a blender using a pump 19 as a metering means for transporting liquid B from a liquid B outlet 3 to a liquid B inlet 6 of a blender 9.
A liquid B outlet 3 is provided in the lower part of the pump 1, and a vent hole 23 is provided in the upper part of the pump 1.
The structure is the same as that shown in FIG. 2, except that B liquid level alarm meters 20a and 20b are connected to the Bl inlet 6 via the Bl inlet 6 and are provided at predetermined positions above and below the Bl inlet 6 to send signals to start and stop the operation of the pump 19. That's what happens.
該自動式液配合装置により液を配合する方法は配合器9
内の混合液がサイホン管13を通り排出されると、配合
器9の最下部に設けられたレベル警報計20aからの信
号によりポンプ19が始動しB液を配合器9へ送入し、
必要とするB液の容量に相当する所定の位置に設けられ
たレベル警報計20bの位置まで流入するとポンプ19
はレベル警報計20bからの信号により停止する。The method of blending liquids using the automatic liquid blending device is the blender 9.
When the mixed liquid inside is discharged through the siphon pipe 13, the pump 19 is started by a signal from the level alarm meter 20a provided at the bottom of the mixer 9, and the B liquid is sent to the mixer 9.
When the flow reaches the level alarm meter 20b installed at a predetermined position corresponding to the required volume of liquid B, the pump 19
is stopped by a signal from the level alarm meter 20b.
次いで、A液傾斜容器2よりA液が流入し、A液とB液
の混合液はザ・イホン管13により排出されるサイクル
を繰返すことにより正確な配合割合の混合液を連続的に
供給することができる。Next, liquid A flows in from the liquid A inclined container 2, and the mixed liquid of liquid A and liquid B is discharged through the pipe 13. By repeating this cycle, a mixed liquid with an accurate mixing ratio is continuously supplied. be able to.
本発明における定量輸送手段としてはB液を配合器に流
入することが出来る装置であればよく、具体的には自然
傾斜を利用した配管又は機械的方法としてポンプを用い
る装置が挙げられる。The quantitative transportation means in the present invention may be any device that can flow the B liquid into the blender, and specifically includes piping that utilizes a natural slope or a device that uses a pump as a mechanical method.
本発明においてはサイホン管の代りにポンプを用いても
よく何等支障なく運転を行うことができる。In the present invention, a pump may be used in place of the siphon pipe and operation can be carried out without any problem.
又、B液入口に相当する配合器への液入口を複数個設け
その高さを調節すること、又はA液傾斜容器を複数個設
けることにより、B液以上の混合液を容易に得ることが
できる。In addition, by providing multiple liquid inlets to the mixer corresponding to the B liquid inlet and adjusting the height thereof, or by providing multiple A liquid inclined containers, it is possible to easily obtain a mixed liquid of B liquid or higher. can.
A液傾斜容器のA液入口及びB液出口とB液入口間に流
量調節弁を設けるとさらに微量の調節を行うことができ
る。If a flow rate control valve is provided between the A liquid inlet, the B liquid outlet, and the B liquid inlet of the A liquid inclined container, further minute adjustment can be performed.
本発明におけるA液傾斜容器は第4図に示す様にA液容
器2aを重り21によって天秤棒22で上向きに保持し
、A液が所定量流入するとA液容器が重くなり傾斜して
排出する様に構成された装置を用いてもよ℃・。As shown in FIG. 4, the liquid A tilting container according to the present invention is constructed by holding the liquid A container 2a upward with a weight 21 and a balance rod 22, and when a predetermined amount of liquid A flows in, the liquid A container becomes heavy and is tilted to be discharged. You may also use an apparatus configured to
本発明の自動式液配合装置は複数の液体を配合するのに
適し、該液体の種類は特に限定されることはなく、ドラ
イクリーニング、金属洗浄、電子部品の洗浄、塗料、薬
品等にお(・て液体を配合する広範囲の分野において用
いられるが、特にドライクリーニングや金属洗浄の分野
におし・て用いられる活性炭吸着装置から回収される有
機溶剤を再安定化させる目的で安定剤を添加、配合し再
生させるための装置として好適である。The automatic liquid blending device of the present invention is suitable for blending a plurality of liquids, and the types of liquids are not particularly limited. Stabilizers are added to stabilize organic solvents recovered from activated carbon adsorption devices, which are used in a wide range of fields for compounding liquids, but especially in the fields of dry cleaning and metal cleaning. It is suitable as a device for blending and regenerating.
本発明の効果を列挙すると下記の通りである。The effects of the present invention are listed below.
■)全自動で運転することができ、液の配合に人手が不
要である。■) It can be operated fully automatically, and no human intervention is required for mixing the liquid.
2)自然現象を利用しているので動力を必要としない。2) Since it uses natural phenomena, no power is required.
3)弁や計装機器が少ない。3) There are few valves and instrumentation equipment.
リ A液の不規則、非定常の流入に対応できる。Can handle irregular and unsteady inflow of liquid A.
5)原理が簡単で故障が少ない。5) The principle is simple and there are few failures.
6)取扱いが簡単である。6) Easy to handle.
7)液の混合効果が大きい。7) Great liquid mixing effect.
8)混合液の配合比を自由に変えることができる。8) The blending ratio of the liquid mixture can be changed freely.
9)設備費が安く、ランニングコスト・がかからない。9) Equipment costs are low and running costs are low.
第1図は従来の配合装置の説明図、第2図、第3図は本
発明の自動式液配合装置の各実施例を示す説明図、第4
図はA液傾斜容器の1実施例を示す断面図である。
2°・・A液傾斜容器 9・・配合器3・・B液
出口 10・・・中間部4・・−密閉B液容
器 11・・・混合液ヘッド6・・・B液入口
12・・・端部7・・・凹成部 13
・・サイボン管8゛°混合液出1コ 24・・均
圧口出願人 旭化成工業株式会社
代理人 豊 1) 善 雄
第2図
第3図FIG. 1 is an explanatory diagram of a conventional blending device, FIGS. 2 and 3 are explanatory diagrams showing each embodiment of the automatic liquid blending device of the present invention, and FIG.
The figure is a sectional view showing one embodiment of a tilted A liquid container. 2°...A liquid inclined container 9...Blender 3...B liquid outlet 10...Intermediate section 4...-closed B liquid container 11...Mixed liquid head 6...B liquid inlet
12... End portion 7... Concave portion 13
・・Saibon tube 8° mixed liquid output 1 piece 24・・Pressure equalization port Applicant: Asahi Kasei Corporation Agent Yutaka 1) Yoshio Figure 2 Figure 3
Claims (1)
、該A液が排出されると傾斜が復元される様に構成され
たA液傾斜容器(2)と、下部にB液出口(3)を設け
た密閉B液容器(4)と、該B液出口(3)より配合器
(9)のB液入口(6)への定量輸送手段と、上方に均
圧口(24)を設けた凹成部(7)にA液傾斜容器(2
)を設け、B液入口(6)の上部に少なくともA液流入
量を収容する容積を有し、かつ下部にA液とB液の混合
液を流出する混合液出口(8)を設けた配合器(9)と
、中間部(10)を混合液ヘッド(11)とB液入口(
6)の間の高さに半固定し、端部(12)を混合液出口
(8)に連結させたサイホン管(13)とからなること
を特徴とする自動式液配合装置。1) A liquid tilt container (2) configured so that when a predetermined amount of liquid A flows in, the center of gravity moves and tilts, and when the liquid A is discharged, the slope is restored, and a liquid B outlet ( 3), a means for transporting a fixed amount from the B liquid outlet (3) to the B liquid inlet (6) of the blender (9), and a pressure equalization port (24) above. A liquid inclined container (2) is placed in the recess (7) provided.
), the upper part of the B liquid inlet (6) has a volume that accommodates at least the inflow of the A liquid, and the lower part has a mixed liquid outlet (8) from which the mixed liquid of the A liquid and the B liquid flows out. The container (9) and the intermediate part (10) are connected to the mixed liquid head (11) and the B liquid inlet (
An automatic liquid blending device comprising a siphon tube (13) semi-fixed at a height between 6) and having an end (12) connected to a mixed liquid outlet (8).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP58058748A JPS59183821A (en) | 1983-04-05 | 1983-04-05 | Automatic liquid blender |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP58058748A JPS59183821A (en) | 1983-04-05 | 1983-04-05 | Automatic liquid blender |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS59183821A true JPS59183821A (en) | 1984-10-19 |
| JPH0468973B2 JPH0468973B2 (en) | 1992-11-04 |
Family
ID=13093154
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP58058748A Granted JPS59183821A (en) | 1983-04-05 | 1983-04-05 | Automatic liquid blender |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS59183821A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS61154698A (en) * | 1984-12-28 | 1986-07-14 | 三菱重工業株式会社 | Dry cleaning method |
| CN107916537A (en) * | 2016-10-11 | 2018-04-17 | 宁波吉德家电科技有限公司 | A kind of washing machine automatic release device |
| CN108118493A (en) * | 2016-11-28 | 2018-06-05 | 青岛海尔洗衣机有限公司 | A kind of jettison system and put-on method of the liquid flocculant being made of various medicaments |
-
1983
- 1983-04-05 JP JP58058748A patent/JPS59183821A/en active Granted
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS61154698A (en) * | 1984-12-28 | 1986-07-14 | 三菱重工業株式会社 | Dry cleaning method |
| JPH0334360B2 (en) * | 1984-12-28 | 1991-05-22 | Mitsubishi Heavy Ind Ltd | |
| CN107916537A (en) * | 2016-10-11 | 2018-04-17 | 宁波吉德家电科技有限公司 | A kind of washing machine automatic release device |
| CN108118493A (en) * | 2016-11-28 | 2018-06-05 | 青岛海尔洗衣机有限公司 | A kind of jettison system and put-on method of the liquid flocculant being made of various medicaments |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0468973B2 (en) | 1992-11-04 |
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