JPS5849775Y2 - Mud mixing device - Google Patents
Mud mixing deviceInfo
- Publication number
- JPS5849775Y2 JPS5849775Y2 JP1980074437U JP7443780U JPS5849775Y2 JP S5849775 Y2 JPS5849775 Y2 JP S5849775Y2 JP 1980074437 U JP1980074437 U JP 1980074437U JP 7443780 U JP7443780 U JP 7443780U JP S5849775 Y2 JPS5849775 Y2 JP S5849775Y2
- Authority
- JP
- Japan
- Prior art keywords
- mixture
- mixing tank
- mixing
- tank
- storage tank
- 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
Links
Landscapes
- Preparation Of Clay, And Manufacture Of Mixtures Containing Clay Or Cement (AREA)
- Mixers Of The Rotary Stirring Type (AREA)
Description
【考案の詳細な説明】
この考案は、主としてセメントミルク、モルタル、ベン
トナイト泥水、化学グラウトなどの建築土木材料、その
他各種流動食品の攪拌混合に使用する泥滓物混合装置に
関するものである。[Detailed description of the invention] This invention relates to a sludge mixing device mainly used for stirring and mixing construction materials such as cement milk, mortar, bentonite slurry, chemical grout, and various other liquid foods.
従来この種の混合装置として、一般に円筒又は球形容器
の内面に複数の羽根板を放射状に突設すると共に、底部
又は中央部に比較的低速の回転翼を設けて攪拌混合する
装置が使用されている。Conventionally, this type of mixing device generally includes a cylindrical or spherical container with a plurality of blades protruding radially from the inner surface and relatively low-speed rotary blades at the bottom or center for agitation and mixing. There is.
しかしながら、前記従来の装置においては、内周面の羽
根板突設部に混合物流体運動が緩慢になる部分が生じ、
この部分において混合材料が停滞付着し、時間の経過と
共にこれが硬化してこの塊が混合物中に混入することが
多く、このため混合物製品の不均衡による製品低下と、
さらにこれをポンプ輸送する等の場合、バルブ及び輸送
ラインの閉鎖などの事態が生ずる難点があった。However, in the conventional device, there is a part where the movement of the mixture fluid is slow in the blade plate protrusion on the inner peripheral surface.
The mixed material stagnates and adheres in this area, and over time it hardens and this lump often gets mixed into the mixture, resulting in product degradation due to imbalance of the mixed product.
Furthermore, when transporting this by pump, there is a problem in that valves and transport lines may be closed.
また、従来の装置では混合物が槽内で単に水平面内で回
転しているに過ぎないため、比重の大きいセメント、砂
などは遠心力により重量に応じて周方向に分離し、攪拌
中に粗粒層と細粒層等に振り分けられて均質な混合物が
得られず、また混合物が槽外にはね出す等多くの問題が
あった。In addition, in conventional equipment, the mixture is simply rotated in a horizontal plane within the tank, so cement, sand, etc. with high specific gravity are separated in the circumferential direction according to their weight by centrifugal force, and coarse particles are separated during stirring. There were many problems such as separation into a layer and a fine grain layer, making it impossible to obtain a homogeneous mixture, and the mixture spilling out of the tank.
この考案は前記従来の課題を解決するために上下一連に
配した混合槽と貯溜槽(アジテータ−タンク)の形状を
コーナ部に面取りを装した四角形の箱形とし、槽底部の
攪拌翼を高速回転させることにより各コーナ一部におい
て二次的渦流を生ヒさせると共に、底部から上部に混合
物を流動させて上部の波返し部において反転させること
により縦横に繰返し攪拌し、従来のように突起物を設け
ることなく短時間で均一に攪拌混合することができ、し
かも混合物の流動停滞による硬化塊を生ずることなく良
質な混合物が得られる混合装置を提案するものである。In order to solve the above-mentioned conventional problems, this design uses a rectangular box shape with chamfered corners for the mixing tank and storage tank (agitator tank) arranged in series above and below, and the stirring blades at the bottom of the tank are moved at high speed. By rotating the mixture, a secondary vortex is generated at a part of each corner, and the mixture is flowed from the bottom to the top and reversed at the upper part of the wave to repeatedly stir it vertically and horizontally. The purpose of the present invention is to propose a mixing device that can uniformly stir and mix in a short time without the need for a mixing device, and can obtain a high-quality mixture without producing hardened lumps due to stagnation of the flow of the mixture.
以下この考案を図面に示す実施例について説明すると、
基台1上には複数の支持材2に支持固定された混合槽3
及びその下方に貯溜槽4が上下一連に設置されている。An example of this invention shown in the drawings will be explained below.
On the base 1 is a mixing tank 3 supported and fixed on a plurality of supporting members 2.
A storage tank 4 is installed below the storage tank 4 in a series of upper and lower positions.
混合槽3及び貯溜槽4はいずれも各コーナ一部に面取り
を装した四角形箱形に形成され、その上端開口部周囲に
先端部が下向きとなるように屈曲した波返し5,5′が
設置されており、混合槽3よりも貯溜槽4の容積は幾分
大きく形成されている。Both the mixing tank 3 and the storage tank 4 are formed into a rectangular box shape with a part of each corner chamfered, and around the upper end opening there are installed corrugations 5, 5' which are bent so that the tip points downward. The volume of the storage tank 4 is formed to be somewhat larger than that of the mixing tank 3.
混合槽3の底部中央にはインペラー等の攪拌翼6がモー
タ7によってベルトプーリなどの動力伝達機構8を介し
て高速回転(1400〜1800 rpm)可能に設置
され、その上方には中央に導入孔を有する截頭円錐型の
導入部9が設けられており、導入部9から吸込んだ混合
物を攪拌翼6によって底面に沿って渦流を生じさせなが
ら周囲に放出するように構成されている。A stirring blade 6 such as an impeller is installed in the center of the bottom of the mixing tank 3 so that it can rotate at high speed (1400 to 1800 rpm) by a motor 7 via a power transmission mechanism 8 such as a belt pulley, and above the stirring blade 6 there is an introduction hole in the center. A truncated cone-shaped introduction section 9 is provided, and the mixture sucked from the introduction section 9 is configured to be discharged to the surroundings while generating a vortex flow along the bottom surface by stirring blades 6.
また、混合槽3の外部には水位検出装置10が設置され
ている。Further, a water level detection device 10 is installed outside the mixing tank 3.
水位検出装置10は、タンク内の水を導入してその水位
を表示するゲージ管11と、その内部に浮べた発光素子
などの発信器を取付けた浮子12と、ゲージ管11に添
わせたガイドレールにスライド自在に取付けた受光素子
などの複数の感知器13 a 、13 b 、13 C
とから構成されており、混合槽3内に供給した水、セメ
ント、砂などの混合材料の混合比(容積比)に応じた水
位を、浮子12の発信器と所定水位基準に設定した感知
器13 a 、13b、13Cによってそれぞれ検出し
、この信号を制御盤14に入力して小型コンプレッサー
15等を作動することにより、混合槽3への給水管16
の弁17あるいはセメント、砂などの混合材料の供給装
置を閉鎖又は停止する仕組みになっている。The water level detection device 10 includes a gauge tube 11 that introduces water in a tank and displays the water level, a float 12 with a transmitter such as a light emitting element floating inside the float 12, and a guide attached to the gauge tube 11. A plurality of sensors 13 a , 13 b , 13 C such as light receiving elements slidably attached to the rail
A transmitter on the float 12 and a sensor set to a predetermined water level standard determine the water level according to the mixing ratio (volume ratio) of mixed materials such as water, cement, and sand supplied into the mixing tank 3. The water supply pipe 16 to the mixing tank 3 is
The system is designed to close or stop the valve 17 or the supply device for mixed materials such as cement and sand.
混合槽3の底面には内部の混合物を貯溜槽3内に排出す
る排出口18が設けられ、その下方には粗大粒子などを
除去するバイブロフィルタ19が設置されている。A discharge port 18 for discharging the internal mixture into the storage tank 3 is provided at the bottom of the mixing tank 3, and a vibrofilter 19 for removing coarse particles and the like is installed below the discharge port 18.
排出口18には自動開閉弁20が設けられ、この弁20
は貯溜槽4の混合物が所定量以下になったとき、浮子な
どの検出器21の検出信号により開いて混合物をバイブ
ロフィルタ19を介して貯溜槽4内に流下排出し、全量
を排出し終るとタイマー作動により自動的に閉じるよう
になっている。An automatic opening/closing valve 20 is provided at the discharge port 18, and this valve 20
When the mixture in the storage tank 4 becomes less than a predetermined amount, it is opened by the detection signal of the detector 21 such as a float, and the mixture is discharged into the storage tank 4 through the vibrofilter 19, and when the entire amount is discharged. It closes automatically when a timer is activated.
貯溜槽4の底部中央には、混合槽3の攪拌翼7と同時に
高速回転する攪拌翼22が設けられており、混合槽3と
同様にして混合物を攪拌混合し、混合物の硬化と分離を
防止している。A stirring blade 22 that rotates at high speed simultaneously with the stirring blade 7 of the mixing tank 3 is provided at the center of the bottom of the storage tank 4, and stirs and mixes the mixture in the same manner as the mixing tank 3, thereby preventing hardening and separation of the mixture. are doing.
また、貯溜槽4の内周部には、排出管23.24が設け
られ、これに輸送管25が接続されている。In addition, discharge pipes 23 and 24 are provided on the inner circumference of the storage tank 4, and a transport pipe 25 is connected to the discharge pipes 23 and 24.
排出管23は第3図に示すようにT字型管で、その垂直
部下端に弁座26を介して排出管24が接続され、さら
に垂直部上端に弁座27を介してT字型管からなる洗浄
水供給管28の垂直部下端が接続されている。The discharge pipe 23 is a T-shaped pipe, as shown in FIG. The vertical lower end of a cleaning water supply pipe 28 consisting of the above is connected.
洗浄水供給管28の垂直部上端には流体圧シリンダ29
が固定され、その伸縮ロッド30の先端には上下に硬質
ゴム等からなる円錐部を有する弁体31が取付けられて
いる。A fluid pressure cylinder 29 is installed at the upper end of the vertical portion of the cleaning water supply pipe 28.
is fixed, and a valve body 31 having conical portions made of hard rubber or the like at the top and bottom is attached to the tip of the telescoping rod 30.
制御盤14の設置部には混合量及び混合物の輸送量を記
録する自記計32が設置されている。A self-recording meter 32 for recording the amount of mixture and the amount of transported mixture is installed in the installation part of the control panel 14.
以上のように構成された混合装置を使用する際には、制
御盤14における始動スイッチをONすることによりモ
ータ7が駆動して攪拌翼6及び22を高速回転させると
共に、給水管16の弁17を開いて給水が開始される。When using the mixing device configured as described above, turning on the start switch on the control panel 14 drives the motor 7 to rotate the stirring blades 6 and 22 at high speed, and also turns on the valve 17 of the water supply pipe 16. Open to start water supply.
水が所定量に達するとその水位を感知器13aが検出し
て弁17を閉じ、給水を停止すると共に第一の混合材料
の供給装置を作動してその供給を開始し、これが所定量
に達するとそれによる水位を感知器13bが検出して供
給を停止し、さらに第二の混合材料の供給装置を作動し
て同様に所定量供給し、その水位を感知器13 Cが検
出して供給を停止する。When the water reaches a predetermined amount, the sensor 13a detects the water level, closes the valve 17, stops the water supply, and activates the first mixed material supply device to start supplying the first mixed material until the predetermined amount is reached. Then, the sensor 13b detects the resulting water level and stops the supply, and further operates the second mixed material supply device to similarly supply a predetermined amount, and the sensor 13C detects the water level and starts the supply. Stop.
なお、引続き第3、第4の混合材料の供給を必要とする
ときには、それに応じた水位基準に感知器をセットして
おけばよい。Incidentally, when it is necessary to continuously supply the third and fourth mixed materials, the sensor may be set to the corresponding water level standard.
このようにして所定混合比に従って供給された水及び各
種の混合材料は攪拌翼6によって導入部から吸込まれて
底面に沿って渦巻状に回転しながら拡散放出され、混合
槽3の四隅において第2図矢印で示すように二次的渦流
となって回転流動すると共に、混合槽3の内周部におい
て上昇し、上端の波返し5により反転せられて槽中央部
に流下し、この結果混合物は高速で縦横に激しく攪拌混
合されるためその繰返しによって短時間で均一な混合物
が得られることになる。The water and various mixed materials thus supplied according to the predetermined mixing ratio are sucked in from the introduction part by the stirring blades 6, are diffused and released while rotating in a spiral shape along the bottom surface, and are then released into the second tank at the four corners of the mixing tank 3. As shown by the arrow in the figure, the mixture becomes a secondary vortex and rotates, rising at the inner circumference of the mixing tank 3, being reversed by the wave return 5 at the upper end, and flowing down to the center of the tank.As a result, the mixture Since the mixture is vigorously stirred and mixed vertically and horizontally at high speed, a homogeneous mixture can be obtained in a short period of time by repeating this process.
なおこの場合、混合物の流体運動が緩慢になる部分が全
く無いため、その硬化環を生ずるようなことはなく、良
好な品質の混合物が得られる。In this case, since there is no part where the fluid movement of the mixture becomes slow, no hardening rings occur, and a mixture of good quality can be obtained.
このように混合された混合物は、貯溜槽4に設けた検出
器21の発信信号により混合槽3の自動開閉弁20が開
くことによって排出口18から排出され、貯溜槽4内に
全量供給される。The mixture thus mixed is discharged from the discharge port 18 by opening the automatic on-off valve 20 of the mixing tank 3 in response to a transmission signal from the detector 21 provided in the storage tank 4, and is supplied in its entirety into the storage tank 4. .
この時バイブロフィルタ19により粗大粒子等の不要物
は排除される。At this time, unnecessary substances such as coarse particles are removed by the vibrofilter 19.
そして、混合槽3内の混合物が全部排出されると、その
排出迄に要する時間にセットされたタイマーにより自動
的に閉じ、同時に給水管16の弁17を開くので、再び
水及び混合材料が所定量供給されて同様に攪拌混合が繰
返し行なわれる。When all the mixture in the mixing tank 3 is discharged, the timer is set to the time required for the discharge, and the timer is set to automatically close the tank. At the same time, the valve 17 of the water supply pipe 16 is opened, so that the water and mixed material are returned to their place. A fixed amount is supplied and stirring and mixing are repeated in the same manner.
貯溜槽4に満たされた混合物は、混合槽3における場合
と同様に絶えず攪拌されながら排出管23.24から輸
送管25を通ってグラウトポンプその他に導入する。The mixture filled in the storage tank 4 is introduced into the grout pump or the like through the discharge pipe 23, 24 through the transport pipe 25 while being constantly stirred as in the mixing tank 3.
そして混合物が所定量以下になると検出器21が発信し
て混合槽3の自動開開弁20を開き、既に混合剤の混合
物を貯溜槽4内に補給する。When the mixture becomes less than a predetermined amount, the detector 21 sends a signal to open the automatic opening/opening valve 20 of the mixing tank 3 to replenish the mixture of the mixture into the storage tank 4.
以上の結果、混合槽3において連続的に混合物が製造さ
れ、貯溜槽3における減少に応じて絶えず混合剤混合物
を補給するため、混合物を長時間連続的に輸送すること
ができ、しかも一連の動作は全て自動的に行なわれ、遠
隔操作で運転することができる。As a result of the above, the mixture is continuously produced in the mixing tank 3, and the mixture is constantly replenished according to the decrease in the storage tank 3, so that the mixture can be transported continuously for a long time, and moreover, a series of operations can be carried out. Everything is done automatically and can be operated remotely.
次に混合槽3及び貯溜槽の運転中に一時的に混合物の輸
送を停止する場合には、排出管23、輸送管25及びグ
ラウトポンプ等に残留する混合物が硬化する前にこれら
の内部を洗浄しておく必要がある。Next, when temporarily stopping the transport of the mixture during operation of the mixing tank 3 and storage tank, clean the insides of the discharge pipe 23, transport pipe 25, grout pump, etc. before the mixture remaining in them hardens. It is necessary to do so.
そのためこの場合には一時的洗浄の信号により流体圧シ
リンダ29を伸長作動し、第3図の鎖線で示すように弁
体31を弁座26に圧着して排出管24を閉鎖し、洗浄
水供給管28にこれに接続した給水管から洗浄水を送り
込み、これを排出管23、輸送管25及びグラウトポン
プに連続的に流通させることによりこれらの内部を洗浄
する。Therefore, in this case, the fluid pressure cylinder 29 is extended in response to a temporary cleaning signal, and the valve body 31 is pressed against the valve seat 26 as shown by the chain line in FIG. 3 to close the discharge pipe 24 and supply cleaning water. Cleaning water is sent into the pipe 28 from a water supply pipe connected thereto, and is continuously passed through the discharge pipe 23, the transport pipe 25, and the grout pump to clean the inside thereof.
なお、弁体31が弁座26を閉鎖する際、弁体31の下
部円錐部が弁座26の開口部周囲の先鋭角部に線接触す
るようになっているため、弁体31及び弁座26に混合
物の残りが付着していてもその混合物中の粒子等を押し
のけて確実に密着させることができ、弁閉鎖不良による
洗浄、水の漏出を防止することができる。Note that when the valve body 31 closes the valve seat 26, the lower conical portion of the valve body 31 comes into line contact with the acute corner around the opening of the valve seat 26, so that the valve body 31 and the valve seat Even if the remainder of the mixture adheres to the valve 26, the particles in the mixture can be pushed away and the mixture can be reliably brought into close contact with the valve 26, thereby preventing cleaning and water leakage due to valve closing failure.
混合作業終了の際には、制御盤の洗浄スイッチをONす
ると、給水管16から混合槽3内に給水が開始され、感
知器13 a 、13 b 、13 Cの設定にかかわ
らず、他の材料は供給されずに水のみが満たされて内部
を洗浄し、次いで貯溜槽4内の混合物が順次排出されて
最底液面に達したとき、弁20が開いて混合槽4内に供
給され、同様に洗浄され、この洗浄水は排出管24.2
3及び輸送管25を通ってグラウトポンプ等に流入し、
これらをも洗浄して排出される。When the mixing work is finished, turning on the cleaning switch on the control panel starts water supply from the water supply pipe 16 into the mixing tank 3, and regardless of the settings of the sensors 13a, 13b, and 13C, other materials are washed away. is not supplied and only water is filled to clean the inside, and then the mixture in the storage tank 4 is sequentially discharged and when it reaches the bottom liquid level, the valve 20 is opened and water is supplied into the mixing tank 4, It is washed in the same way, and this washing water is discharged from the drain pipe 24.2.
3 and the transport pipe 25 to flow into the grout pump etc.
These are also washed and discharged.
このような洗浄作業は洗浄停止指令があるまで繰返し行
なわれる。Such cleaning operations are repeated until a cleaning stop command is issued.
以上の通りこの考案によれば、上下一連に設置した混合
槽と貯溜槽を各コーナ一部を面取りした四角形箱型に形
成してなるので、底部中央に設けた高速回転する攪拌翼
により混合材料は渦流状に回転しながら四隅において二
次的渦流上ずると共に、槽内周部において上昇し、上端
周囲内側に設けた波返しにより反転流下され、この結果
混合物は高速で縦横に激しく繰返し攪拌混合されて短時
間で均一に混合された混合物を得ることができる。As described above, according to this invention, the mixing tank and storage tank installed in a series above and below are formed into a rectangular box shape with a part of each corner chamfered. While rotating in a whirlpool, a secondary vortex rises at the four corners, rises at the inner periphery of the tank, and is reversely flowed down by the ripples provided inside the upper edge, resulting in the mixture being vigorously stirred vertically and horizontally at high speed. A uniformly mixed mixture can be obtained in a short time.
そして、各槽内には羽根板等混合物の流体運動を緩慢に
する部分が全くなく、槽全域において激しく流動するた
め、混合物の停滞硬化による塊を生ずることなく、製品
として良質な混合物を得ることができる。Furthermore, since there is no part such as a vane in each tank that slows down the fluid movement of the mixture, and the mixture flows vigorously throughout the tank, a high-quality mixture can be obtained as a product without forming lumps due to stagnation and hardening of the mixture. I can do it.
第1図はこの考案装置の縦断面図、第2図は同上一部を
破断して表わした平面図、第3図は排出管及び洗浄水供
給管部分の構造を示す縦断面図である。
3・・・・・・混合槽、4・・・・・・貯溜槽、5,5
′・・・・・・波返し、6・・・・・・攪拌翼、10・
・・・・・水位検出装置、11・・・・・・ゲージ管、
12・・・・・・浮子、13 a 、13 b 、13
C・・・・・・感知器、18・・・・・・排出口、2
0・・・・・情動開閉弁、22・・・・・・攪拌翼。FIG. 1 is a longitudinal cross-sectional view of this invented device, FIG. 2 is a partially cutaway plan view of the same, and FIG. 3 is a longitudinal cross-sectional view showing the structure of the discharge pipe and wash water supply pipe portion. 3...Mixing tank, 4...Storage tank, 5,5
'... Wave return, 6... Stirring blade, 10.
...Water level detection device, 11 ... Gauge tube,
12...Float, 13 a, 13 b, 13
C...Sensor, 18...Exhaust port, 2
0... Emotional opening/closing valve, 22... Stirring blade.
Claims (4)
に形成し、前記混合槽の底部中央に高速回転する攪拌翼
を設けると共に、上端周囲内側に波返しを設けてなるこ
とを特徴とする泥博物混合装置。(1) The mixing tank is formed into a rectangular box shape with chamfered corners, and a stirring blade that rotates at high speed is provided at the center of the bottom of the mixing tank, and a ripple is provided inside the periphery of the top end. A mud museum mixing device.
給する混合材料の供給停止信号を発する水位検出装置を
設けてなることを特徴とする実用新案登録請求の範囲第
1項記載の泥博物混合装置。(2) The mixing tank is equipped with a water level detection device that detects the internal water level in stages and issues a signal to stop supplying a plurality of mixed materials. mud museum mixing device.
溜する貯溜槽を設けてなることを特徴とする実用新案登
録請求の範囲第1項記載の泥滓物混合装置。(3)' The sludge mixing device according to claim 1, which is characterized in that a storage tank is provided below the mixing tank to store the mixture mixed in the mixing tank.
したとき開放し、かつ混合槽内の混合物が空になったと
き閉鎖する排出弁機構を設けてなることを特徴とする実
用新案登録請求の範囲第3項記載の泥津物混合装置。(4) The mixing tank is equipped with a discharge valve mechanism that opens when the mixture in the storage tank decreases below a predetermined amount and closes when the mixture in the mixing tank becomes empty. A mud material mixing device according to claim 3 of the patent registration claim.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1980074437U JPS5849775Y2 (en) | 1980-05-29 | 1980-05-29 | Mud mixing device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1980074437U JPS5849775Y2 (en) | 1980-05-29 | 1980-05-29 | Mud mixing device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS56176036U JPS56176036U (en) | 1981-12-25 |
| JPS5849775Y2 true JPS5849775Y2 (en) | 1983-11-14 |
Family
ID=29437148
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1980074437U Expired JPS5849775Y2 (en) | 1980-05-29 | 1980-05-29 | Mud mixing device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5849775Y2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2603633B2 (en) * | 1987-05-29 | 1997-04-23 | 日本車輌製造株式会社 | Continuous batcher plant |
-
1980
- 1980-05-29 JP JP1980074437U patent/JPS5849775Y2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS56176036U (en) | 1981-12-25 |
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