JP2000325707A - Filter cloth cleaner for discharging cake in filter press - Google Patents

Filter cloth cleaner for discharging cake in filter press

Info

Publication number
JP2000325707A
JP2000325707A JP11137107A JP13710799A JP2000325707A JP 2000325707 A JP2000325707 A JP 2000325707A JP 11137107 A JP11137107 A JP 11137107A JP 13710799 A JP13710799 A JP 13710799A JP 2000325707 A JP2000325707 A JP 2000325707A
Authority
JP
Japan
Prior art keywords
filter
filter plate
plate
claw
filter cloth
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
Application number
JP11137107A
Other languages
Japanese (ja)
Other versions
JP3260725B2 (en
Inventor
Atsushi Takashima
篤 高嶋
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.)
KURITA MACH Manufacturing CO Ltd
Kurita Machinery Manufacturing Co Ltd
Original Assignee
KURITA MACH Manufacturing CO Ltd
Kurita Machinery Manufacturing Co Ltd
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 KURITA MACH Manufacturing CO Ltd, Kurita Machinery Manufacturing Co Ltd filed Critical KURITA MACH Manufacturing CO Ltd
Priority to JP13710799A priority Critical patent/JP3260725B2/en
Publication of JP2000325707A publication Critical patent/JP2000325707A/en
Application granted granted Critical
Publication of JP3260725B2 publication Critical patent/JP3260725B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Filtration Of Liquid (AREA)

Abstract

PROBLEM TO BE SOLVED: To make a whole apparatus small in size and light in weight, to reduce cost, to facilitate assembly of a filter press, and to save the time for maintenance, by providing a filter cloth vibrating device and a filter cloth cleaner on the upper part of the frame of a filter plate feeding device so as to integrate the whole apparatus into a unit. SOLUTION: There are provided a cake-discharging mechanism and a filter- cloth cleaning mechanism; namely a filter plate feeding device 20T travelling a filter plate 3 back and forth, such a filter cloth vibrating device 20D vibrating a filter cloth 4 that is equipped on the upper part of a frame 16 and such a cleaner 20W for the filter cloth cleaning by injection of cleaning solution to the filter cloth 4 that is equipped on the upper part of the frame 16 respectively. That is to say, the filter cloth vibrating device 20D, the cleaner 20W for the filter cloth and the filter plate feeding device 20T are unified as a unit centering on the frame 16 of the filter plate feeding device 20T. As a result, cost is reduced by making a whole apparatus small in size and light in weight, and the assembly of a filter press is facilitated, and the time for maintenance is saved.

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】本発明は、ケーク排出機構及
び濾布洗浄機構を1つのユニット化するフィルタプレス
のケーク排出濾布洗浄装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cake discharge filter cloth cleaning apparatus of a filter press in which a cake discharge mechanism and a filter cloth cleaning mechanism are integrated into one unit.

【0002】[0002]

【従来の技術】従来のフィルタプレスにおいては、濾過
後に濾板からケークを排出させるケーク排出機構と、濾
布を洗浄する濾布洗浄機構とが別々に予めユニット化し
たのち、フィルタプレスにそれぞれのユニットを組み込
むようにしている。
2. Description of the Related Art In a conventional filter press, a cake discharge mechanism for discharging cake from a filter plate after filtration and a filter cloth cleaning mechanism for cleaning filter cloth are separately unitized beforehand. The unit is being incorporated.

【0003】[0003]

【発明が解決しようとする課題】このように、上記構造
のものでは、ケーク排出機構及び濾布洗浄機構とが別々
のユニットより構成されるため、フィルタプレス全体が
大型化するとともに、取付け手数も煩雑であるといった
問題があった。従って、本発明の目的は、上記問題を解
決することにあって、ケーク排出機構と濾布洗浄機構と
を1つのユニットにユニット化することができるフィル
タプレスのケーク排出濾布洗浄装置を提供することにあ
る。
As described above, in the above-mentioned structure, since the cake discharging mechanism and the filter cloth cleaning mechanism are composed of separate units, the size of the entire filter press is increased and the number of mounting steps is reduced. There was a problem that it was complicated. SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the above-described problems, and to provide a cake discharge filter cloth cleaning apparatus of a filter press, which can unitize a cake discharge mechanism and a filter cloth cleaning mechanism into one unit. It is in.

【0004】[0004]

【課題を解決するための手段】上記目的を達成するため
に、本発明は以下のように構成する。本発明の第1態様
によれば、一端に設けた前部スタンドと他端に設けた後
部スタンドとの間で前後方向に沿って設けられたサイド
ビームに各濾板の把持部を上記前後方向沿いに摺動自在
にそれぞれ係架したフィルタプレスにおいて、上記濾板
の上記把持部に係合して上記濾板を上記サイドビームに
沿って前後方向に進退可能とする爪装置と、上記爪装置
を前後方向に走行させる爪装置用駆動装置と、濾板送り
装置用駆動装置とを備え、上記濾板送り装置用駆動装置
の駆動により、上記サイドビームに沿って前後方向に走
行可能とする濾板送り装置と、濾板送り装置のフレーム
上部に備えた濾布振動装置用エアシリンダの駆動により
濾布吊り棒をたたくハンマを有する濾布振動装置と、上
記濾布に洗浄液を噴射する洗浄ノズルを多数備えた洗浄
管と、上記濾板送り装置のフレーム上部に備えかつ上記
濾布間で上記洗浄管を上下動させるエアシリンダとを有
する濾布洗浄装置と、上記濾板送り装置、上記濾布振動
装置及び上記濾布洗浄装置の動作制御を行う制御装置
と、を備えることを特徴とするフィルタプレスのケーク
排出濾布洗浄装置を提供する。本発明の第2態様によれ
ば、上記濾板送り装置の上記爪装置は、上記濾板の把持
部に係合する送り爪と、上記濾板の送り動作中に送り方
向前側に位置する濾板の把持部に当接する停止爪と、上
記濾板の送り動作中に上記前後方向のうちの一方向であ
る送り方向前側に位置する濾板の把持部に上記停止爪が
係合したことを検出する第1センサと、上記濾板の把持
部に上記送り爪が係合したことを検出する第2センサ
と、上記濾板の送り動作中に上記前後方向のうちの他方
向である送り方向前側に位置する濾板の把持部に上記停
止爪が係合したことを検出する第3センサとを備えると
ともに、上記爪装置用駆動装置は、上記爪装置を前後方
向に走行させるエアシリンダにより構成し、上記濾板送
り装置用駆動装置はモータより構成され、該モータの駆
動をチェーンを介して伝達して、上記サイドビームに沿
って前後方向に上記濾板送り装置を走行可能とする第1
態様に記載のフィルタプレスのケーク排出濾布洗浄装置
を提供する。本発明の第3態様によれば、上記濾板送り
装置は、固定板側に位置する濾板の上記把持部に上記爪
装置が係合して上記爪装置を上記爪装置用駆動装置によ
り可動板側に走行させることにより、上記濾板を1枚ず
つ可動板側へ送る機構と、可動板側に位置する濾板の上
記把持部に上記爪装置が係合して上記爪装置を上記爪装
置用駆動装置により固定板側に走行させることにより、
上記濾板を1枚ずつ固定板側へ送る機構とを設けてなる
第1又は2態様に記載のフィルタプレスのケーク排出濾
布洗浄装置を提供する。本発明の第4態様によれば、上
記濾布振動装置は、上記濾板送り装置の上記可動板側へ
濾板を送る機構により、上記濾板を1枚ずつ可動板側へ
送るとき、上記濾布振動装置用エアシリンダの駆動によ
り上記ハンマで上記濾布吊り棒をたたいて上記濾布を振
動させて上記濾板からのケーク排出を促進させるもので
あり、上記濾布洗浄装置は、上記濾板送り装置の上記固
定板側へ濾板を送る機構により、上記濾板を1枚ずつ固
定板側へ送るとき、上記濾布洗浄装置の上記エアシリン
ダにより上記濾布間で上記洗浄管を上下動させて上記洗
浄ノズルから上記濾布に洗浄液を噴射するものである第
3態様に記載のフィルタプレスのケーク排出濾布洗浄装
置を提供する。
In order to achieve the above object, the present invention is configured as follows. According to the first aspect of the present invention, the side beam provided along the front-rear direction between the front stand provided at one end and the rear stand provided at the other end is provided with the grip portion of each filter plate in the front-rear direction. A claw device that engages with the grip portion of the filter plate and allows the filter plate to advance and retreat in the front-rear direction along the side beam; A drive device for a claw device for driving the filter plate feed device in the front-rear direction, and a drive device for the filter plate feed device, and a filter capable of running in the front-rear direction along the side beam by driving the drive device for the filter plate feed device. A plate feeder, a filter cloth vibrator having a hammer for hitting a filter cloth hanging rod by driving an air cylinder for a filter cloth vibrator provided on an upper portion of the frame of the filter plate feeder, and a cleaning nozzle for spraying a cleaning liquid onto the filter cloth Washing with many A filter cloth cleaning device having an air cylinder provided on an upper portion of the frame of the filter plate feeder and moving the cleaning tube up and down between the filter cloths; the filter plate feeder, the filter cloth vibrator and the filter A control device for controlling the operation of the cloth cleaning device, and a cake discharge filter cloth cleaning device for a filter press. According to a second aspect of the present invention, the claw device of the filter plate feeder includes a feed claw that engages with a grip portion of the filter plate, and a filter that is located on a front side in a feed direction during the feed operation of the filter plate. A stop claw that abuts on a grip portion of the plate, and that the stop claw is engaged with a grip portion of the filter plate that is located on the front side in the feed direction that is one of the front-rear directions during the feed operation of the filter plate. A first sensor for detecting, a second sensor for detecting that the feed claw is engaged with a grip portion of the filter plate, and a feed direction which is another direction of the front-rear direction during the feed operation of the filter plate. A third sensor for detecting that the stop claw is engaged with the gripping portion of the filter plate located on the front side, and the claw device driving device includes an air cylinder that moves the claw device in the front-rear direction. The driving device for the filter plate feeding device is constituted by a motor, and the motor Driven by transmitting through the chain, first to allow running the filter plates feeder longitudinally along the side beams
An apparatus for cleaning a cake discharge filter cloth of a filter press according to an aspect is provided. According to a third aspect of the present invention, in the filter plate feeding device, the claw device is engaged with the grip portion of the filter plate located on the fixed plate side, and the claw device is movable by the claw device driving device. A mechanism for feeding the filter plates one by one to the movable plate side by moving the filter plate to the movable plate side, and the claw device is engaged with the grip portion of the filter plate located on the movable plate side, and the claw device is engaged with the claw. By running to the fixed plate side by the device driving device,
A cake discharge filter cloth cleaning apparatus for a filter press according to the first or second aspect, further comprising a mechanism for feeding the filter plates one by one to a fixed plate side. According to a fourth aspect of the present invention, the filter cloth vibrating device is configured such that when the filter plates are sent one by one to the movable plate side by the mechanism for sending the filter plates to the movable plate side of the filter plate feeder, The filter cloth vibrating device is driven to drive the filter cloth hanging rod with the hammer to vibrate the filter cloth to promote cake discharge from the filter plate. When the filter plates are sent one by one to the fixed plate side by the mechanism for sending the filter plates to the fixed plate side of the filter plate feeder, the washing pipe is passed between the filter cloths by the air cylinder of the filter cloth washing device. The cake discharging filter cloth cleaning device for a filter press according to the third aspect, wherein the cleaning liquid is sprayed from the cleaning nozzle to the filter cloth by vertically moving the filter nozzle.

【0005】[0005]

【発明の実施の形態】以下に、本発明にかかる実施の形
態を図面に基づいて詳細に説明する。
Embodiments of the present invention will be described below in detail with reference to the drawings.

【0006】本発明の一実施形態にかかるフィルタプレ
スは、ケーク排出機構の一例としての濾布振動装置20
D及び濾布洗浄機構の一例としての濾布洗浄装置20W
及び濾板送り装置20Tを1つのユニットにユニット化
したケーク排出濾布洗浄装置を備えているものである。
上記フィルタプレスの主な構成として、フィルタプレス
本体以外に、制御回路などより構成される制御装置20
K、画面表示装置10G、各センサSR,SLなどを備
えている。まず、上記フィルタプレスは、図1〜図12
に示すように、大略、以下のように濾過作業などを行う
ように構成されている。図1に示すように、固定板(前
部スタンド)1と、濾板締付装置20Uの駆動装置2を
有する後部スタンド100との間には多数の濾板3,
…,3が配置され、各濾板3は図3に示すように横方向
(左右方向)に突出した各把手(把持部の一例)7が、
固定板1と後部スタンド100との間の両側に前後方向
に沿って配置されたサイドビーム6,6に対して、前後
方向沿いに摺動可能に載置されて濾板3,…,3が吊り
支持されている。各隣接濾板3,3間には一対の濾布
4,4が配置されており、濾板締付装置20Uの駆動に
より可動板8を固定板1側に移動させて、濾板3,…,
3を各隣接濾板3,3間には一対の濾布4,4を挟み込
んだ状態で固定板1側に締め付けた後、各一対の濾布間
4,4に形成された濾室内に濾過すべきスラリーを供給
して濾過を開始する(図16のステップ#1参照)。濾
過終了後、濾板が圧搾濾板であるときには、必要に応じ
て圧搾濾過を更に行う(図16のステップ#2参照)。
その後、必要に応じてセンターブローを行いスラリー供
給用のセンターの供給孔に残存したスラリーを除去する
(図16のステップ#3参照)とともに濾過時に各濾室
にスラリーを介して作用させた圧力を抜く圧抜きを行い
(図16のステップ#4参照)、濾板締付装置20Uの
駆動により、可動板8を締付位置から後退位置まで一挙
に移動させる前に、締付位置から僅かに後退させて各濾
板3間に溜まった水を抜く(図16のステップ#5参
照)。その後、濾板締付装置20Uの駆動により、可動
板8を固定板1側から離れる方向に移動させたのち、濾
板送り装置20Tにより、可動板8に近い濾板3から順
に一枚ずつ可動板側に移動させて開板する(図16のス
テップ#6〜#8参照)。この開板作業は、左右のサイ
ドビーム6,6に固定された図1,図2,図3などに示
す案内レール13A,13A上を進退移動する濾板送り
装置20Tにより行う。濾板送り装置20Tは、図1〜
図4,図8に示すように、送るべき濾板3の把手7,7
に係合する爪27A,27Bを有する爪装置14,14
と、爪装置14,14を同期して移動させる駆動用エア
シリンダ50,50を一例として備える爪装置用駆動装
置15,15と、濾板送り装置用駆動装置19とを左右
に備えて構成している。濾板送り装置20Tのフレーム
16は、図4に示すように、側面形状が逆L字状になる
ように構成し、その下部に爪装置用駆動装置15,15
を備えるとともに、上部には濾板送り装置20Tの濾板
送り装置用駆動装置の一例であるブレーキ付きモータ1
9を配置し、モータ19を正逆回転させることにより、
チェーン18などを介して濾板送り装置20Tを一体的
に案内レール13A,13A上で前後方向沿いに進退さ
せるようにしている。各爪装置14は、固定板側の前位
の爪27Bと締付装置20U側の後位の爪27Aとを備
えており、上昇位置で濾板3の把手7に係合する一方、
下降位置では係合解除されるようにしている。また、図
1には、上記フィルタプレスの運転を画面表示する装置
の一例としての操作盤10Gを示す。操作盤10Gに
は、フィルタプレスの運転を行うために画面表示装置を
備えており、電気的シーケンス制御装置20Kは画面表
示装置と電気的に接続して操作盤10G内に組み込ま
れ、フィルタプレスの濾板列に沿って移動自在に支持さ
れる。図8〜図10及び図17に示すように、上記制御
装置20Kには次のとおり多数のセンサSR,SLが連
結されている。図8,図9,図10及び図17ではSL
を付したセンサSL1,SL2,SL3,SL6,SL
7,SL8は、濾板3の左側の各装置側に配置され、ま
た、図8,図9,図10及び図17ではSRを付したセ
ンサSR1,SR2,SR3,SR6,SR7,SR8
は、濾板3の右側の各装置側に配置される。上記センサ
SR,SLの内、図8,図9,図10ではセンサSR
1,SL1,SR2,SL2,SR3,SL3までは濾
板3を送る左右側の爪装置14,14側に配置される。
第1センサSR1,SL1は、濾板開板のため送ろうと
する濾板3を検知する左右の濾板位置検知センサであ
る。第2センサSR2,SL2は、上記送ろうとする濾
板3の後側(可動板8側)の位置に並ぶ濾板(後位濾
板)3又は可動板8を検知する左右の濾板位置検知セン
サである。さらに、上記実施形態では、第3センサSR
3,SL3を備えており、第3センサSR3,SL3
は、上記送ろうとする濾板3の前側(固定板1側)の位
置に並ぶ濾板(前位濾板)3又は固定板1を検知する左
右の位置検知センサである。本実施形態で上記濾板送り
装置20Tの駆動装置19,50、後記の振動装置20
Dの駆動装置400及び洗浄装置20Wの駆動装置40
1(三装置20T,20D,20Wの各駆動装置19,
50と400と401)は、制御装置20Kとそれぞれ
連結している。この三装置20T,20D,20Wは一
つのブロックにまとめてケーク排出濾布洗浄装置を構成
する。図9,図10の第7センサSR7,SL7は、上
記三装置20T,20D,20Wの後端側に配置され、
図9,図10では第6センサSR6,SL6は該三装置
20T,20D,20Wの前端側に配置される。第7セ
ンサSR7,SL7は、三装置20T,20D,20W
の収納位置(締付装置側)を検知する左右の収納位置検
知センサである。第6センサSR6,SL6は、三装置
20T,20D,20Wが固定板側に前進して停止する
位置を検知する左右の停止位置検知センサである。締付
装置側に図9,図10では第7センサSR7,SL7と
反応する図9,図10の反応板H1,H1があり、又固
定板側に第6センサSR6,SL6と反応する反応板図
9,図10の反応板H2,H2がある。濾板送り中、三
装置20T,20D,20Wよりなるケーク排出濾布洗
浄装置は濾板3を1枚送った分だけ前進又は後進する。
A filter press according to an embodiment of the present invention includes a filter cloth vibrating device 20 as an example of a cake discharging mechanism.
D and a filter cloth cleaning apparatus 20W as an example of a filter cloth cleaning mechanism
And a cake discharge filter cloth cleaning device in which the filter plate feeding device 20T is unitized into one unit.
As a main configuration of the filter press, a control device 20 including a control circuit and the like in addition to the filter press body.
K, a screen display device 10G, sensors SR and SL, and the like. First, the filter press is shown in FIGS.
As shown in (1), it is configured to perform a filtering operation or the like as follows. As shown in FIG. 1, a large number of filter plates 3 are provided between a fixed plate (front stand) 1 and a rear stand 100 having a driving device 2 of a filter plate fastening device 20U.
, 3 are arranged, and each filter plate 3 has a handle (an example of a grip portion) 7 protruding in the lateral direction (left-right direction) as shown in FIG.
Filter plates 3,..., 3 are slidably mounted in the front-rear direction with respect to side beams 6, 6 arranged in the front-rear direction on both sides between the fixed plate 1 and the rear stand 100. It is suspended and supported. A pair of filter cloths 4, 4 are arranged between the adjacent filter plates 3, 3, and the movable plate 8 is moved to the fixed plate 1 side by the driving of the filter plate tightening device 20U. ,
3 is fastened to the fixed plate 1 side with a pair of filter cloths 4, 4 sandwiched between the adjacent filter plates 3, 3, and then filtered into the filter chamber formed between the pair of filter cloths 4, 4. The slurry to be supplied is supplied to start filtration (see step # 1 in FIG. 16). After the filtration is completed, if the filter plate is a compressed filter plate, compressed filtration is further performed as necessary (see step # 2 in FIG. 16).
Thereafter, if necessary, a center blow is performed to remove the slurry remaining in the supply hole of the slurry supply center (see step # 3 in FIG. 16), and the pressure applied to each filtration chamber via the slurry during filtration is reduced. The pressure is released (see step # 4 in FIG. 16), and before the movable plate 8 is moved from the tightening position to the retracted position at once by driving the filter plate tightening device 20U, it is slightly retracted from the tightening position. Then, the water collected between the filter plates 3 is drained (see step # 5 in FIG. 16). Thereafter, the movable plate 8 is moved in a direction away from the fixed plate 1 by driving the filter plate tightening device 20U, and then the filter plate 3 is moved one by one from the filter plate 3 close to the movable plate 8 by the filter plate feeding device 20T. The plate is moved to the plate side and opened (see steps # 6 to # 8 in FIG. 16). This plate opening operation is performed by a filter plate feeder 20T which moves forward and backward on guide rails 13A, 13A fixed to the left and right side beams 6, 6 as shown in FIGS. The filter plate feeder 20T is shown in FIGS.
As shown in FIGS. 4 and 8, handles 7, 7 of the filter plate 3 to be sent.
Device 14, 14 having pawls 27A, 27B engaging with
And drive devices 15 and 15 for claw devices, which include drive air cylinders 50 and 50 for moving the claw devices 14 and 14 in synchronization with each other, and a drive device 19 for a filter plate feed device on the left and right. ing. As shown in FIG. 4, the frame 16 of the filter plate feeding device 20T is configured to have an inverted L-shaped side surface, and the claw device driving devices 15, 15 are provided below the frame.
And a motor 1 with a brake, which is an example of a driving device for the filter plate feeder of the filter plate feeder 20T,
9 is arranged, and the motor 19 is rotated forward and reverse,
The filter plate feeder 20T is integrally moved forward and backward along the front and rear directions on the guide rails 13A, 13A via a chain 18 or the like. Each claw device 14 includes a front claw 27B on the fixed plate side and a rear claw 27A on the fastening device 20U side, and engages with the handle 7 of the filter plate 3 at the ascending position,
At the lowered position, the engagement is released. FIG. 1 shows an operation panel 10G as an example of a device for displaying the operation of the filter press on a screen. The operation panel 10G is provided with a screen display device for performing the operation of the filter press. The electric sequence control device 20K is electrically connected to the screen display device and incorporated in the operation panel 10G, and the filter press of the filter press is operated. It is movably supported along the filter plate row. As shown in FIGS. 8 to 10 and FIG. 17, a large number of sensors SR and SL are connected to the control device 20K as follows. In FIGS. 8, 9, 10, and 17, SL is used.
Sensors SL1, SL2, SL3, SL6, SL
7, SL8 are disposed on each device side on the left side of the filter plate 3, and in FIGS. 8, 9, 10 and 17, sensors SR1, SR2, SR3, SR6, SR7, SR8 with SR are attached.
Are arranged on each device side on the right side of the filter plate 3. Of the above sensors SR and SL, in FIGS. 8, 9 and 10, the sensor SR is used.
1, SL 1, SR 2, SL 2, SR 3, and SL 3 are arranged on the left and right claw devices 14, 14 for sending the filter plate 3.
The first sensors SR1 and SL1 are left and right filter plate position detection sensors that detect the filter plate 3 to be sent to open the filter plate. The second sensors SR2 and SL2 detect left and right filter plate positions for detecting the filter plate (the rear filter plate) 3 or the movable plate 8 arranged at the rear side (the movable plate 8 side) of the filter plate 3 to be sent. It is a sensor. Further, in the above embodiment, the third sensor SR
And the third sensor SR3, SL3
Are left and right position detecting sensors for detecting the filter plate (front filter plate) 3 or the fixed plate 1 arranged in front of the filter plate 3 to be fed (fixed plate 1 side). In the present embodiment, the driving devices 19 and 50 of the filter plate feeding device 20T and the vibration device 20 described later
D driving device 400 and cleaning device 20W driving device 40
1 (the driving devices 19 of the three devices 20T, 20D, and 20W,
50, 400, and 401) are connected to the control device 20K, respectively. The three devices 20T, 20D and 20W are combined into one block to constitute a cake discharge filter cloth cleaning device. The seventh sensors SR7 and SL7 in FIGS. 9 and 10 are arranged on the rear end side of the three devices 20T, 20D and 20W.
9 and 10, the sixth sensors SR6 and SL6 are arranged on the front end side of the three devices 20T, 20D and 20W. The seventh sensors SR7, SL7 are three devices 20T, 20D, 20W
Left and right storage position detection sensors for detecting the storage position (the side of the tightening device) of. The sixth sensors SR6, SL6 are left and right stop position detection sensors that detect the position where the three devices 20T, 20D, 20W advance toward the fixed plate and stop. 9 and 10, the reaction plates H1 and H1 of FIGS. 9 and 10 react with the seventh sensors SR7 and SL7, and the reaction plate reacts with the sixth sensors SR6 and SL6 on the fixed plate side. There are reaction plates H2 and H2 shown in FIGS. During the feeding of the filter plate, the cake discharge filter cloth cleaning device including the three devices 20T, 20D and 20W moves forward or backward by the amount of one filter plate 3 fed.

【0007】上記にしたように濾過作業終了後に濾板3
を固定板側から可動板側送るときには、制御装置20K
により、以下のように動作制御される。まず、濾板送り
装置20Tを後退位置すなわち退避位置から所定位置ま
で前進したのち(図16のステップ#6参照)、図9に
示すように、爪装置用駆動装置15,15の駆動用エア
シリンダ50,50のピストンロッドを固定板1側に伸
ばして爪装置14,14を固定板1側に位置する状態
で、濾板送り装置20Tをモータ19の駆動により固定
板側に移動させる(図16のステップ#7参照)。そし
て、各爪装置14は、固定板1側に前進して、送ろうと
する濾板3例えば濾板3Aのところで停止する。すなわ
ち、まず、各爪装置14において、固定板側の前位の爪
27Bは下降位置に位置し、後位の爪27Aが上昇位置
に位置した状態で、上記したように左右の爪装置14,
14が同期して固定板1側に移動し、図8,図9,図1
0の第1センサSR1,SL1により、開板のため送ろ
うとする濾板3Aを検知した位置で、爪装置14,14
を停止させる。この停止位置では、送ろうとする濾板3
Aの各把手7の前面の位置の下方に、各爪装置14の下
降位置にある前位の爪27Bが位置しており、後位の爪
27Aが上昇位置に位置して、送るべき濾板3Aの各把
手7の後面(固定板1とは反対側の面)に当接してい
る。次に、濾板送り装置20Tの左右の爪装置14,1
4は、エアシリンダなどの各前位の爪27Bの爪駆動装
置(一例としてのエアシリンダ)27Dの駆動によりガ
イド27G,27G(図8参照)により案内されつつ各
爪27Bが上昇位置まで上昇して上記濾板3Aの各把手
7の前面に係合する。爪装置14,14は、エアシリン
ダ50,50の駆動により可動板8又はすでに送った濾
板側に開板距離だけ移動して、第2センサSR2,SL
2の検知により濾板3Aを可動板8又はすでに送った濾
板3の前面に送り付ける(図16のステップ#8参
照)。
[0007] As described above, the filter plate 3
When moving the fixed plate from the fixed plate to the movable plate,
The operation is controlled as follows. First, after the filter plate feeding device 20T is advanced from the retreat position, that is, the retreat position to a predetermined position (see step # 6 in FIG. 16), as shown in FIG. While the piston rods 50, 50 are extended toward the fixed plate 1 and the pawl devices 14, 14 are positioned on the fixed plate 1, the filter plate feeder 20T is moved toward the fixed plate by driving the motor 19 (FIG. 16). Step # 7). Then, each claw device 14 advances to the fixed plate 1 side and stops at the filter plate 3 to be sent, for example, at the filter plate 3A. That is, first, in each claw device 14, in a state where the front claw 27B on the fixed plate side is located at the lowered position and the rear claw 27A is located at the raised position, as described above, the left and right claw devices 14,
14 moves synchronously to the fixed plate 1 side, and FIG.
0 at the position where the first sensor SR1, SL1 detects the filter plate 3A to be sent for opening, the claw devices 14, 14
To stop. In this stop position, the filter plate 3 to be fed is
A front claw 27B located at a lowered position of each claw device 14 is located below a front position of each handle 7 of A, and a rear claw 27A is located at a raised position, and a filter plate to be sent. 3A is in contact with the rear surface of each handle 7 (the surface opposite to the fixed plate 1). Next, the left and right claw devices 14, 1 of the filter plate feeding device 20T.
4, each claw 27B is raised to a raised position while being guided by guides 27G, 27G (see FIG. 8) by driving of a claw driving device (an air cylinder as an example) 27D of each front claw 27B such as an air cylinder. To engage with the front surface of each handle 7 of the filter plate 3A. The pawl devices 14 and 14 are moved by the driving of the air cylinders 50 and 50 to the movable plate 8 or the already sent filter plate by the opening distance, and the second sensors SR2 and SL.
By the detection of 2, the filter plate 3A is sent to the movable plate 8 or the front surface of the already sent filter plate 3 (see step # 8 in FIG. 16).

【0008】このように、濾板送り装置20Tをモータ
19の駆動により濾板一枚分の距離ずつ前進させて開板
を行い、開板される濾板3A,3B間の濾布4,4に保
持されていたケーク排出を可能とする。ケーク排出時に
は、一対の濾布4,4をそれぞれ吊り支持する一対の濾
布吊り棒5,5の上方に対応して、濾板送り装置20T
のフレーム16の上部に備えられた濾布振動装置20
D,20Dのハンマー303を駆動装置としてのエアシ
リンダ400,400の駆動により、図7,図11に示
すように、図7の実線で示した位置から点線で示した位
置まで下降させて濾布吊り棒5,5を下向きにたたき、
振動を濾布4,4に付与する(図16のステップ#9参
照)。なお、図1などにおいて、12は濾布吊り棒5を
吊り支持するアーム、24はアーム12の下端を濾板上
端に回動可能に取り付けるピンである。また、22,2
3はそれぞれ爪装置14及び濾板送り装置20Tの移動
用車輪である。次いで、ステップ#10においてケーク
排出を繰り返すか否かを判断する。言い換えれば、開板
すべきすべての濾板を後退させて開板させたか否か判断
し(図16のステップ#10参照)、すべての濾板を後
退させて開板させたのち、ステップ#11において濾布
洗浄作業を、制御装置20Kの制御のもとで、以下のよ
うに動作制御される。行う。この濾布洗浄作業は、後部
スタンド側に後退させた濾板を再び、一枚ずつ前部スタ
ンド側に送り、濾板間で展張された濾布に対して洗浄作
業を行うようにしている(図16のステップ#11〜#
17参照)。すなわち、濾板送り装置20Tを上記開板
用の所定位置から洗浄用の所定位置まで後退したのち
(図16のステップ#12参照)、爪装置用駆動装置1
5,15の駆動用エアシリンダ50,50のピストンロ
ッドを可動板側に縮めて爪装置14,14を可動板側に
位置する状態で、濾板送り装置20Tをモータ19の駆
動により可動板側に移動させる(図16のステップ#1
3参照)。そして、各爪装置14は、可動板側に後退し
て、送ろうとする濾板3例えば図10の濾板3Xのとこ
ろで停止する。すなわち、まず、各爪装置14におい
て、可動板側の前位の爪27Bは上昇位置に位置し、後
位の爪27Aが下降位置に位置した状態で、上記したよ
うに左右の爪装置14,14が同期して可動板側に移動
し、図8,図9,図10の第1センサSR1,SL1に
より、洗浄のため送ろうとする濾板3Xを検知した位置
で、爪装置14,14を停止させる。この停止位置で
は、送ろうとする濾板3Xの各把手7の後面の位置の下
方に、各爪装置14の下降位置にある後位の爪27Aが
位置しており、前位の爪27Bが上昇位置に位置して、
送るべき濾板3Xの各把手7の前面(可動板8とは反対
側の面)に当接している。次に、濾板送り装置20Tの
左右の爪装置14,14は、エアシリンダなどの各後位
の爪27Aの爪駆動装置(一例としてのエアシリンダ)
27Dの駆動によりガイド27G,27G(図8参照)
により案内されつつ各爪27Aが上昇位置まで上昇して
上記濾板3Xの各把手7の後面に係合する。爪装置1
4,14は、エアシリンダ50,50の駆動により固定
板1又はすでに送った濾板側に開板距離だけ移動して、
第3センサSR3,SL3の検知により濾板3Xを固定
板1又はすでに送った濾板3の後面に送り付ける(図1
6のステップ#14参照)。
As described above, the filter plate feeder 20T is advanced by a distance equivalent to one filter plate by the drive of the motor 19 to open the plate, and is held by the filter cloths 4, 4 between the opened filter plates 3A, 3B. Enables the cake to be discharged. At the time of discharging the cake, the filter plate feeder 20T corresponds to the upper part of the pair of filter cloth hanging rods 5, 5 for suspending and supporting the pair of filter cloths 4, 4, respectively.
Filter cloth vibrating device 20 provided on the upper part of the frame 16 of FIG.
7 and 11, the hammer 303 of D, 20D is lowered from the position shown by the solid line in FIG. 7 to the position shown by the dotted line as shown in FIGS. Hit the hanging rods 5, 5 downward,
Vibration is applied to the filter cloths 4 and 4 (see step # 9 in FIG. 16). In FIG. 1 and the like, reference numeral 12 denotes an arm for suspending and supporting the filter cloth hanging rod 5, and reference numeral 24 denotes a pin for rotatably attaching the lower end of the arm 12 to the upper end of the filter plate. 22 and 2
Reference numeral 3 denotes wheels for moving the claw device 14 and the filter plate feeding device 20T, respectively. Next, in step # 10, it is determined whether or not the cake discharge is to be repeated. In other words, it is determined whether or not all the filter plates to be opened have been retracted and opened (see step # 10 in FIG. 16). After all the filter plates have been retracted and opened, the filter cloth is filtered in step # 11. The operation of the cleaning operation is controlled as follows under the control of the control device 20K. Do. In this filter cloth cleaning operation, the filter plates retracted to the rear stand side are again sent one by one to the front stand side, and the filter cloths stretched between the filter plates are cleaned. Steps # 11 to # in FIG.
17). That is, after the filter plate feeding device 20T is retracted from the predetermined position for plate opening to the predetermined position for cleaning (see step # 12 in FIG. 16), the driving device 1 for the claw device is set.
In a state where the piston rods of the driving air cylinders 50, 50 are retracted to the movable plate side and the pawl devices 14, 14 are located on the movable plate side, the filter plate feeder 20T is driven by the motor 19 to move the filter plate feed device 20T to the movable plate side. (Step # 1 in FIG. 16)
3). Then, each claw device 14 retreats to the movable plate side and stops at the filter plate 3 to be fed, for example, at the filter plate 3X in FIG. That is, in each claw device 14, first, in the state where the front claw 27B on the movable plate side is located at the raised position and the rear claw 27A is located at the lowered position, as described above, the left and right claw devices 14, 14 moves to the movable plate side in synchronization with each other, and at the position where the filter plate 3X to be sent for cleaning is detected by the first sensors SR1 and SL1 in FIGS. 8, 9 and 10, the claw devices 14 and 14 are moved. Stop. In this stop position, the rear claw 27A at the lowered position of each claw device 14 is located below the position of the rear surface of each handle 7 of the filter plate 3X to be sent, and the front claw 27B is raised. Position
The filter plate 3X to be sent is in contact with the front surface (the surface opposite to the movable plate 8) of each handle 7 of the filter plate 3X. Next, the claw devices 14 on the left and right sides of the filter plate feeding device 20T are claw driving devices for each rear claw 27A such as an air cylinder (an air cylinder as an example).
Guides 27G, 27G by driving 27D (see FIG. 8)
Each claw 27A is raised to the raised position while being guided by, and is engaged with the rear surface of each handle 7 of the filter plate 3X. Claw device 1
4, 14 are moved to the fixed plate 1 or the already sent filter plate by the opening distance by driving the air cylinders 50, 50,
When the third sensors SR3 and SL3 detect the filter plate 3X, the filter plate 3X is sent to the fixed plate 1 or the rear surface of the already sent filter plate 3 (FIG. 1).
6 Step # 14).

【0009】このように、濾板送り装置20Tをモータ
19の駆動により濾板一枚分の距離ずつ後進させて開板
を行い、開板される濾板3X,3Y間の濾布4,4の洗
浄を可能とする(図16のステップ#15参照)。図
3,図6,図12に示すように、ハンマー303の間に
は、濾布洗浄装置20Wの洗浄ノズルを多数備えた洗浄
管17を配置して、駆動装置としてのエアシリンダ40
1の駆動により濾布4,4間に洗浄管17を、図3,図
6,図12の各実線位置から各点線位置まで下降させ
て、洗浄管17の洗浄ノズルから洗浄水を濾布4,4に
噴射して洗浄するようにしている。次いで、ステップ#
16において濾布洗浄を繰り返すか否かを判断する。言
い換えれば、濾布洗浄すべきすべての濾板を前進させて
濾布洗浄させたか否か判断し(図16のステップ#16
参照)、すべての濾板を前進させて濾布洗浄する。その
後、濾過作業を行わない場合には装置を停止する。一
方、再び濾過作業を行う場合には、図16のステップ#
1の濾過作業に戻り、すべての濾板3が可動板側に送り
付けられた後、濾板締付装置20Uの駆動により再び可
動板8で濾板3が固定板1側に押し戻されて、次の濾過
を行う(図16のステップ#1参照)とともに、上記し
た工程を繰り返す(図16のステップ#2〜#17参
照)。
As described above, the filter plate feeder 20T is moved backward by the distance of one filter plate by the drive of the motor 19 to open the plate, and the filter cloths 4 and 4 between the opened filter plates 3X and 3Y are washed. (See step # 15 in FIG. 16). As shown in FIGS. 3, 6, and 12, between the hammer 303, a washing pipe 17 provided with a large number of washing nozzles of the filter cloth washing device 20W is arranged, and an air cylinder 40 as a driving device is arranged.
The cleaning pipe 17 is lowered from the solid line position in FIGS. 3, 6 and 12 to the dotted line position between the filter cloths 4 and 4 by the driving of , 4 for cleaning. Then, step #
At 16, it is determined whether or not to repeat the filter cloth cleaning. In other words, it is determined whether or not all the filter plates to be washed with the filter cloth are advanced to perform the filter cloth cleaning (step # 16 in FIG. 16).
), Advance all the filter plates and wash the filter cloth. Thereafter, when the filtering operation is not performed, the apparatus is stopped. On the other hand, when performing the filtering operation again, step # in FIG.
Returning to the filtering operation of 1 and after all the filter plates 3 have been sent to the movable plate side, the filter plate 3 is pushed back to the fixed plate 1 side by the movable plate 8 again by the drive of the filter plate tightening device 20U, and the next (See step # 1 in FIG. 16), and the above steps are repeated (see steps # 2 to # 17 in FIG. 16).

【0010】次に、濾板送り装置20Tの動作につい
て、さらに詳細に説明する。なお、図15,図16に
は、以下に説明するような、図1のフィルタプレスの上
記ケーク排出濾布洗浄装置の作動を示している。濾板送
りスタート信号が操作盤10Gから発せられ、可動板8
は、濾過終了後に上記したように濾板締付装置20Uの
駆動装置2の逆駆動により開板距離だけ後退する。可動
板8と、固定板側に位置しており濾板送り装置20Tに
より送ろうとする一枚の濾板3、例えば図1,図5,図
11の濾板3A、とを連結する各対の濾布吊アーム1
2,12の連結頂部112は、開板距離L(図5参照)
の中央に位置する。次に、制御装置20Kからブレーキ
付きモータ19に駆動信号が入ることにより駆動されて
濾板送り装置20Tが前進走行(例えば図1の左方向へ
の走行)を開始すると、図9,図10に示すように、濾
板送り装置20Tの左右の移動台13B,13Bの後部
下面にある左右の第7センサSR7,SL7が左右の案
内レール13A,13A上の左右の反応板H1,H1か
ら離れる。さらに、濾板送り装置20Tが前進走行し、
図9,図10に示すように、濾板送り装置フレーム16
の上部連結部にある左右の第8センサSR8,SL8が
左右の上記濾布吊アーム12,…,12の連結頂部11
2,112と反応してこれを検出することによって、制
御装置20Kからブレーキ付きモータ19に駆動停止信
号が入り、濾板送り装置20Tは走行停止する。
Next, the operation of the filter plate feeder 20T will be described in more detail. FIGS. 15 and 16 show the operation of the cake discharge filter cloth cleaning apparatus of the filter press of FIG. 1 as described below. A filter plate feed start signal is issued from the operation panel 10G, and the movable plate 8
Is retracted by the opening distance by the reverse drive of the driving device 2 of the filter plate fastening device 20U after the completion of the filtration as described above. Each pair of the movable plate 8 and one filter plate 3 which is located on the fixed plate side and is to be fed by the filter plate feeder 20T, for example, the filter plate 3A in FIGS. Filter cloth suspension arm 1
The connection top 112 of the second and the twelve 12 has an opening distance L (see FIG. 5).
Located in the center of. Next, when the drive signal is input from the control device 20K to the brake-equipped motor 19 and the filter plate feed device 20T starts traveling forward (for example, traveling leftward in FIG. 1), FIG. 9 and FIG. As shown, the left and right seventh sensors SR7, SL7 on the rear lower surface of the left and right movable tables 13B, 13B of the filter plate feeder 20T move away from the left and right reaction plates H1, H1 on the left and right guide rails 13A, 13A. Further, the filter plate feeder 20T moves forward,
As shown in FIG. 9 and FIG.
The left and right eighth sensors SR8 and SL8 in the upper connecting portion of the left and right are connected to the top 11 of the left and right filter cloth suspension arms 12,.
By detecting and reacting with 2,112, a drive stop signal is input from the control device 20K to the motor 19 with brake, and the filter plate feeding device 20T stops running.

【0011】次いで、濾板送り装置フレーム16の脚柱
基部の左右の移動台13B,13B上にある左右の爪装
置用駆動装置(一例としてのエアシリンダ)15,15
に外部からエアー制御弁Vx,Vxを介してエアーをそ
れぞれ供給する。エアーは、導管FR5,FL5から切
替弁VR3,VL3に入り,該切替弁VR3,VL3か
ら導管FR4,FL4及びそれらに介在された流量制御
弁VRA,VLAを通って、爪装置用駆動装置15,1
5のエアシリンダ50,50の後部にあるエアー給排口
にそれぞれ入る。この結果、上記爪装置用駆動装置1
5,15のエアシリンダ50,50のピストンがそれぞ
れ前進し、それぞれのピストンロッド先端にそれぞれ固
定した左右の爪装置14,14を、それらの車輪22,
…,22を左右の移動台13B,13B上で転動させつ
つ、濾板3Aの左右の把手7,7の下までそれぞれ進出
させる。このとき、上記爪装置用駆動装置15,15の
エアシリンダ50,50のそれぞれのピストンより前側
のエアーは、上記爪装置用駆動装置15,15のエアシ
リンダ50,50の前部にあるエアー給排口からエアー
が導管FR3,FL3の流量弁VR4,VL4を通り、
切替弁VR3,VL3の排出口から排出される。左右の
爪装置14,14が濾板3Aの把手7,7の下まで進出
して、停止爪27A,27A(ここで、濾板3を可動板
側へ送る場合を考えた場合には、爪装置14,14の後
位に位置する後位の爪27A,27Aが爪装置14,1
4の停止爪としてそれぞれ機能する。)は濾板3Aの把
手7,7の後面に当たると、図8の第1センサSR1,
SL1が濾板3Aの把手7,7の下面と反応して把手
7,7を検出し、制御装置20Kの制御により爪装置用
駆動装置15,15のエアシリンダ50,50の後部に
あるエアー給排口へのエアー供給が停止され、爪装置1
4,14が停止する。
Next, left and right claw device driving devices (an air cylinder) 15, 15 on the left and right moving tables 13B, 13B at the base of the pillar of the filter plate feeding device frame 16.
Is supplied from outside via air control valves Vx, Vx, respectively. The air enters the switching valves VR3 and VL3 from the conduits FR5 and FL5, passes through the conduits FR4 and FL4 from the switching valves VR3 and VL3, and the flow control valves VRA and VLA interposed therebetween, and drives the claw device driving device 15, 1
5 enter the air supply / discharge ports at the rear of the air cylinders 50, 50, respectively. As a result, the claw device driving device 1
The pistons of the air cylinders 50, 50 advance respectively, and the left and right pawl devices 14, 14, which are respectively fixed to the tips of the piston rods, are moved to the wheels 22, 22, respectively.
, 22 are advanced under the left and right handles 7, 7 of the filter plate 3A while rolling on the left and right movable tables 13B, 13B. At this time, the air in front of the respective pistons of the air cylinders 50, 50 of the claw device driving devices 15, 15 is supplied to the air supply at the front of the air cylinders 50, 50 of the claw device driving devices 15, 15. From the outlet, air passes through flow valves VR4 and VL4 of conduits FR3 and FL3,
It is discharged from the discharge ports of the switching valves VR3 and VL3. The left and right claw devices 14, 14 advance to below the handles 7, 7 of the filter plate 3A and stop pawls 27A, 27A (here, when the case where the filter plate 3 is sent to the movable plate side, The rear claw 27A, 27A located at the rear of the devices 14, 14 is a claw device 14, 1
4 function as stop pawls. ) Hits the rear surface of the handles 7, 7 of the filter plate 3A, the first sensor SR1, FIG.
The SL1 reacts with the lower surfaces of the handles 7, 7 of the filter plate 3A to detect the handles 7, 7, and controls the air supply provided at the rear of the air cylinders 50, 50 of the claw device driving devices 15, 15 under the control of the control device 20K. The air supply to the outlet is stopped, and the claw device 1
4, 14 stop.

【0012】爪装置14,14が濾板3Aに接近する前
に、送り爪27B,27B(濾板3を可動板側へ送る場
合、爪装置14,14の前位に位置する前位の爪27
B,27Bが送り爪としてそれぞれ機能する。)は把手
7,7に接触しないように下降し、また、停止爪27
A,27A(濾板3を可動板側へ送る場合、後位の爪2
7A,27Aが爪装置14,14の停止爪としてそれぞ
れ機能する。)は把手7,7に接触するように上昇して
いる。ここで、前位の爪27B,27Bを上昇させるた
めには、爪装置14,14にある前位の爪の爪駆動装置
27D,27Dにエアー制御弁Vx,Vxを介してエア
ーを供給するために、導管FR1,FL1にある切替弁
VR1,VL1を開けばよい。また、後位の爪27A,
27Aを上昇させるためには、爪装置14,14の後位
の爪の爪駆動装置(一例としてのエアシリンダ)27
C,27Cにエアーを供給するために、導管FR2,F
L2にある切替弁VR2,VL2を開けばよい。前位の
爪27B,27B及び後位の爪27A,27Aをそれぞ
れ下降させるためには、上記供給されたエアーを各エア
シリンダから排出すればよい。
Before the pawl devices 14, 14 approach the filter plate 3A, the feed pawls 27B, 27B (when the filter plate 3 is fed to the movable plate side, the front pawl located in front of the pawl devices 14, 14) 27
B and 27B function as feed claws, respectively. ) Descends so as not to contact the handles 7, 7 and stops 27
A, 27A (when the filter plate 3 is sent to the movable plate side, the rear claw 2
7A and 27A function as stop claws of the claw devices 14 and 14, respectively. ) Are raised so as to come into contact with the handles 7,7. Here, in order to raise the front pawls 27B, 27B, air is supplied to the pawl driving devices 27D, 27D of the front pawls in the pawl devices 14, 14 via the air control valves Vx, Vx. Then, the switching valves VR1 and VL1 in the conduits FR1 and FL1 may be opened. Also, the back nail 27A,
In order to raise 27A, a claw driving device (an air cylinder as an example) of the claw device located behind the claw devices 14, 14 is required.
In order to supply air to C and 27C, conduits FR2 and F
The switching valves VR2 and VL2 in L2 may be opened. In order to lower the front claws 27B, 27B and the rear claws 27A, 27A, respectively, the supplied air may be discharged from each air cylinder.

【0013】左右の爪装置14,14の左右の第1セン
サSR1,SL1が濾板3Aの左右の把手7,7の下面
と反応してこれらを検出すると導線ER2,EL2を通
じて制御装置20Kに信号を送り、爪装置14,14に
ある前位の爪(送り爪として機能する爪27B,27
B)の爪駆動装置27D,27Dにエアー制御弁Vx,
Vxを介してエアーを供給して送り爪27B,27Bを
上昇させるとともに、爪装置用駆動装置15,15のエ
アシリンダ50,50の前部の給排口に前回とは逆にエ
アーが供給され、爪装置用駆動装置15,15のエアシ
リンダ50,50の後部の給排口からエアーが導管FR
4,FL4の流量制御弁VRA,VLAを通り切替弁V
R3,VL3の排出口から排出されて、爪装置用駆動装
置15,15のエアシリンダ50,50の各ピストンが
後進に切り替わる。このとき、爪装置用駆動装置15,
15のエアシリンダ50,50の各ピストンの移動時間
は計測器で計測される。また、流量制御弁VRA,VL
Aのエアー流出量は電気的に制御される。左右両側の爪
装置用駆動装置15,15の送り誤差は、次のように制
御装置20Kの同調制御部の同調動作で容易に修正され
る。すなわち、濾板送り中に、濾板3を送る爪装置用駆
動装置15,15に送り速さの差が生じた場合、この送
り速さの差を以下の方法で制御装置20Kにより修正、
すなわち、スピード調整して、2つの爪装置用駆動装置
15,15を同調させる。なお、この同調動作は制御装
置20Kの同調制御部で行われる。すなわち、左右の爪
装置用駆動装置15,15のエアシリンダ50,50の
それぞれのピストンが、左右の前進限度位置検知センサ
で検知させる位置から左右の後進限度位置検知センサで
検知させる位置までの距離を移動したそれぞれの時間T
1とT2を計測器で求め、両時間の差(T1−T2)が
許容範囲内か否か判断し、許容範囲内ならば特に同調制
御は行わないが、許容範囲外ならば、上記右左の流量制
御弁VRA,VLAの現状の流量設定電流値FDが設定
中心電流値FDSからより大きく離れた方の流量制御弁
の現状の流量設定電流値FDを一定電流値すなわち一定
の補正電流a 1だけ変化させて設定中心電流値FDSに
近づけるようにし、この電流値の変化により当該流量制
御弁を通過する空気量を変えることにより、左右の爪装
置用駆動装置15,15のエアシリンダ50,50のそ
れぞれのピストンの移動スピードの同調を制御装置20
Kで自動的に行うようにしている。従って、長期的に使
用して、負荷変動、たとえぱ、ガイドの当たり、シリン
ダーの当たりの問題等があった場合でも、自動的に同調
制御が行え、手動にて、左右の爪装置用駆動装置15,
15のエアシリンダ50,50のそれぞれのピストンの
移動スピードを同調調整することが不要となる。
The first left and right sensor units of the left and right claw devices 14,
The support SR1, SL1 is the lower surface of the left and right handles 7, 7 of the filter plate 3A.
When these are detected by reacting with
Sends a signal to the control device 20K and sends it to the claw devices 14 and 14.
Certain front nails (jaws 27B, 27 functioning as feed nails)
Air control valves Vx,
Air is supplied through Vx to feed nails 27B, 27B.
While raising the claw device driving devices 15, 15.
In the air supply / discharge port at the front of the
Is supplied, and the air filters of the driving devices 15, 15 for the claw device are supplied.
Air is supplied from conduits FR at the rear of the cylinders 50 and 50 to the conduit FR.
Switching valve V through flow control valves VRA and VLA of FL4 and FL4
R3, VL3 are discharged from the discharge ports, and the driving device
The pistons of the air cylinders 50, 50 in
Switch to reverse. At this time, the claw device driving device 15,
Movement time of each piston of 15 air cylinders 50
Is measured with a measuring instrument. Also, the flow control valves VRA, VL
The air outflow amount of A is electrically controlled. Left and right nails
The feed error of the device driving devices 15, 15 is controlled as follows.
It is easily corrected by the tuning operation of the tuning control unit of the control device 20K.
You. That is, the drive for the claw device for feeding the filter plate 3 while the filter plate is being fed.
If there is a difference in feed speed between the moving devices 15, 15,
The difference in speed is corrected by the controller 20K in the following manner,
That is, by adjusting the speed, the driving device for the two claw devices
Synchronize 15,15. This tuning operation is controlled by the control unit.
This is performed by the tuning control unit of the device 20K. That is, the left and right nails
Of the air cylinders 50 of the device driving devices 15
Left and right forward limit detection sensors
From the position to be detected by
Each time T when moving the distance to the position to be detected
1 and T2 are obtained with a measuring instrument, and the difference between the two times (T1-T2) is
Judges whether it is within the allowable range.
Control is not performed.
Current flow setting current value FD of control valves VRA and VLA is set
Flow control valve farther away from center current value FDS
Current flow setting current value FD is constant current value, that is, constant
Correction current a 1To the set center current value FDS
So that the flow rate
By changing the amount of air passing through the valve,
Of the air cylinders 50 of the mounting drive devices 15
The control unit 20 controls the tuning of the moving speed of each piston.
K automatically performs it. Therefore, in the long term
Use, load fluctuation, even if the guide hits the syringe
Automatically synchronize even if there is a problem with
Control can be performed, and the driving devices 15 for the left and right claw devices can be manually operated.
Of each piston of the 15 air cylinders 50, 50
It is not necessary to adjust the moving speed in synchronization.

【0014】上記それぞれのピストンが後進に切り替わ
ることにより、左右の爪装置14,14は左右の移動台
13B,13B上を車輪22,…,22で転動しつつ支
えられて後進する。このとき、送り爪27B,27Bは
濾板3Aの把手7,7の前面に係合したまま濾板3Aを
可動板8に送り付ける。この結果、濾板3Aの前位に位
置する濾板3Bの左右のアーム12,12と、可動板8
に送り付けられた濾板3Aの左右のアーム12,12と
の連結頂部112,112は、新たな開板距離の中央に
位置する。なお、送り爪27B,27Bが濾板3Aの把
手7,7に係合して濾板3Aを送り始めたとき、制御装
置20Kの制御により、爪装置14,14の後位の爪
(停止爪として機能する爪27A,27A)の爪駆動装
置27C,27Cに供給されたエアーを排出することに
より、ガイド27G,27G(図8参照)により案内さ
れつつ停止爪27A,27Aを下降させる。爪装置1
4,14が可動板側に移動して、爪装置14,14の第
2センサSR2,SL2が可動板側にある左右の突起8
f,8fの下面と反応してこれらを検出して制御装置2
0Kに検出信号が入力されると、制御装置20Kの制御
により、爪装置用駆動装置15,15のエアシリンダ5
0,50の前部の給排口へのエアー供給が停止され、爪
装置用駆動装置15,15は爪装置14,14の後退移
動を停止する。上記濾板3Aが可動板側に送られる間
と、濾板送り装置20Tが停止している間に、濾板3
A,3B間においてアーム12,…,12に吊下げられ
ている濾布4,4からケークを排出し、また、濾布振動
装置20D,20Dを作動させる。又、必要に応じて濾
布洗浄装置20Wを作動させることもある。
When the respective pistons are switched to the backward movement, the left and right claw devices 14 are supported by the left and right moving tables 13B, 13B while being rolled by the wheels 22,. At this time, the filter plate 3A is sent to the movable plate 8 while the feed claws 27B, 27B are engaged with the front surfaces of the handles 7, 7 of the filter plate 3A. As a result, the left and right arms 12, 12 of the filter plate 3B located in front of the filter plate 3A, and the movable plate 8
Are connected to the left and right arms 12 of the filter plate 3A, and are located at the center of the new opening distance. When the feed claws 27B, 27B are engaged with the handles 7, 7 of the filter plate 3A and start feeding the filter plate 3A, the rear claw (stop pawl) of the claw devices 14, 14 is controlled by the control device 20K. The stop claw 27A, 27A is lowered while being guided by the guides 27G, 27G (see FIG. 8) by discharging the air supplied to the claw driving devices 27C, 27C of the claws 27A, 27A) functioning as the claw. Claw device 1
4 and 14 move to the movable plate side, and the second sensors SR2 and SL2 of the claw devices 14 and 14 move to the left and right protrusions 8 on the movable plate side.
The controller 2 reacts with the lower surfaces of the f
When the detection signal is input to 0K, under the control of the control device 20K, the air cylinder 5 of the claw device driving devices 15, 15 is controlled.
The air supply to the front supply and discharge ports 0 and 50 is stopped, and the claw device driving devices 15 and 15 stop the backward movement of the claw devices 14 and 14. While the filter plate 3A is sent to the movable plate side and while the filter plate feeder 20T is stopped, the filter plate 3A
The cake is discharged from the filter cloths 4, 4 suspended on the arms 12,..., 12 between A, 3B, and the filter cloth vibrating devices 20D, 20D are operated. Further, the filter cloth cleaning device 20W may be operated as needed.

【0015】次に、濾板3Aの前位に並んでいた濾板3
Bを可動板側に送る。上記と同様に制御装置20Kから
ブレーキ付きモータ19に駆動信号が入り、濾板送り装
置20Tが固定板側に前進走行する。前進した濾板送り
装置20Tの第8センサSR8,SL8が濾板3Aと濾
板3Bとの間に跨る各一対のアーム12,12の連結頂
部112,112と反応してこれらを検出して、制御装
置20Kの制御に基づき、濾板送り装置20Tは停止す
る。爪装置用駆動装置15,15のエアシリンダ50,
50にエアーをそれぞれ供給して、爪装置14,14を
移動台13B,13B上で濾板3Bの把手7,7の下方
まで前進させる。爪装置14,14が濾板3Aから離れ
るとき、前位の送り爪27B,27Bは濾板3Aの把手
7,7の前面から係合離脱してかつ下降し、また、後位
の停止爪27A,27Aは可動板8の突起8f,8f及
び濾板3Aの把手7,7を通過した後、上昇する。爪装
置14,14が濾板3Bまで前進すると、後位の停止爪
27A,27Aは濾板3の把手7,7の後面に当たる。
Next, the filter plate 3 arranged in front of the filter plate 3A
B is sent to the movable plate side. In the same manner as described above, a drive signal is input from the control device 20K to the brake motor 19, and the filter plate feed device 20T moves forward toward the fixed plate. The eighth sensor SR8, SL8 of the advanced filter plate feeder 20T reacts with the connection tops 112, 112 of each pair of arms 12, 12 straddling between the filter plate 3A and the filter plate 3B to detect these, Under the control of the control device 20K, the filter plate feeding device 20T stops. The air cylinder 50 of the driving device 15, 15 for the claw device,
Air is supplied to each of them, and the claw devices 14, 14 are advanced to below the handles 7, 7 of the filter plate 3B on the moving tables 13B, 13B. When the pawl devices 14, 14 separate from the filter plate 3A, the front feed pawls 27B, 27B disengage from the front surfaces of the handles 7, 7 of the filter plate 3A and descend, and the rear stop pawl 27A. , 27A rise after passing through the projections 8f, 8f of the movable plate 8 and the handles 7, 7 of the filter plate 3A. When the claw devices 14, 14 advance to the filter plate 3B, the rear stop claws 27A, 27A strike the rear surfaces of the handles 7, 7 of the filter plate 3.

【0016】このとき、爪装置14,14の第1センサ
SR1,SL1が濾板3Bの把手7,7の下面と反応し
てこれを検出し、制御装置20Kの制御により前位の送
り爪27B,27Bが上昇するとともに、制御装置20
Kの制御により爪装置用駆動装置15,15のエアシリ
ンダ50,50のそれぞれのピストンが後進に切り替わ
る。濾板3Aを送るときと同様に、爪装置用駆動装置1
5,15のエアシリンダ50,50のそれぞれのピスト
ンの移動時間は上記計測器で計測され、また流量制御弁
のエアー流出量は、電気的に制御される。制御装置20
Kの制御により、爪装置14,4は移動台13B,13
B上を後進し、前位の送り爪27B,27Bは濾板3の
把手7,7の前面に係合したまま、濾板3Bを前回送っ
た濾板3Aに送り付け、第2センサSR2,SL2が濾
板3Aを検知することにより停止する。この結果、濾板
3Bの前位に位置する濾板3Cの左右のアーム12,1
2と、可動板側に送り付けられた濾板3Bの左右のアー
ム12,12との連結頂部112,112はまた新たな
開板距離の中央に位置する。以後同様に、制御装置20
Kの制御により、最後の濾板3まで送ることにより、濾
板3,…,3を一方の可動板側へ送る濾板送りが終了す
る。
At this time, the first sensors SR1 and SL1 of the claw devices 14 and 14 react with and detect the lower surfaces of the handles 7 and 7 of the filter plate 3B, and the front feed claw 27B is controlled by the control device 20K. , 27B rise and the control device 20
By the control of K, the respective pistons of the air cylinders 50, 50 of the claw device driving devices 15, 15 are switched to the reverse. As in the case of sending the filter plate 3A, the driving device 1 for the claw device
The movement time of each piston of the air cylinders 50, 50 is measured by the measuring device, and the amount of air flowing out of the flow control valve is electrically controlled. Control device 20
By the control of K, the claw devices 14 and 4 move the movable tables 13B and 13
B, the filter plate 3B is sent to the previously sent filter plate 3A while the forward feed claws 27B, 27B are engaged with the front surfaces of the handles 7, 7 of the filter plate 3, and the second sensors SR2, SL2 Stops by detecting the filter plate 3A. As a result, the left and right arms 12, 1 of the filter plate 3C located in front of the filter plate 3B.
The connection tops 112, 112 between the left and right arms 12, 12 of the filter plate 3B sent to the movable plate side are also located at the center of the new opening distance. Thereafter, similarly, the control device 20
By sending the filter plate 3 to the last filter plate 3 under the control of K, the filter plate feed for sending the filter plates 3,...

【0017】次に、濾板送り装置20Tを可動板後方の
待機位置に戻す場合、制御装置20Kからの信号により
濾板送り装置20Tを前進させる。前位の送り爪27
B,27Bは濾板3の把手7,7の前面から係合離脱し
て下降したままとし、また、後位の停止爪27A,27
Aは該把手下面を通過しても上昇させないようにする。
濾板送り装置20Tが前進すると、該濾板送り装置20
Tの第8センサSR8,SL8が固定板1と濾板3との
間に跨る左右の一対のアーム12,…,12の連結頂部
112,112と反応してこれらを検出して、制御装置
20Kの制御により濾板送り装置20Tは停止する。ま
た、移動台13B,13Bの前部下面にある第6センサ
SR6,SL6(図9参照)を案内レール13A,13
Aの前部にある反応板H2,H2(図10参照)と反応
してこれらを検出させる。これらの検出の結果、制御装
置20Kの制御により、濾板送り装置20Tは可動板後
方に向かって後進態勢になり、また、制御装置20Kの
制御により爪装置用駆動装置15,15のエアシリンダ
50,50にエアーを供給してそれぞれのピストンを後
端位置に位置させて爪装置14,14を後進させた状態
で、ブレーキ付駆動モータ19の駆動により濾板送り装
置20Tを案内レール13A,13A上を後進させる。
濾板送り装置20Tの移動台13B,13Bの後部の下
面にある第7センサSR7,SL7が案内レール13
A,13A上の後部の反応板H1,H1を検出すると、
制御装置20Kの制御によりブレーキ付駆動モータ19
の駆動を停止させる。この結果、濾板送り装置20Tが
可動板後方の待機位置に戻ることになる。
Next, when returning the filter plate feeder 20T to the standby position behind the movable plate, the filter plate feeder 20T is advanced by a signal from the controller 20K. Forward feed claw 27
B, 27B are disengaged from the front surfaces of the handles 7, 7 of the filter plate 3 and remain down, and the rear stop claws 27A, 27
A does not rise even if it passes under the handle.
When the filter plate feeder 20T advances, the filter plate feeder 20T
The Tth eighth sensors SR8, SL8 react with and detect the connection tops 112, 112 of the pair of left and right arms 12,..., 12 straddling between the fixed plate 1 and the filter plate 3, and detect these. The filter plate feeder 20T stops. Further, the sixth sensors SR6 and SL6 (see FIG. 9) on the lower surfaces of the front portions of the movable bases 13B and 13B are connected to the guide rails 13A and 13B.
A reacts with the reaction plates H2 and H2 (see FIG. 10) at the front of A to detect them. As a result of these detections, under the control of the control device 20K, the filter plate feeding device 20T is set to the rearward position toward the rear of the movable plate, and under the control of the control device 20K, the air cylinder 50 of the claw device driving devices 15, 15 is controlled. , 50, the pistons are positioned at the rear end positions and the pawl devices 14, 14 are moved backward, and the filter plate feeder 20T is driven by the drive motor 19 with brake to move the filter plate feeder 20T to the guide rails 13A, 13A. Reverse up.
The seventh sensors SR7, SL7 on the lower surface of the rear part of the movable tables 13B, 13B of the filter plate feeder 20T
When the rear reaction plates H1 and H1 on A and 13A are detected,
The drive motor 19 with brake is controlled by the control device 20K.
To stop driving. As a result, the filter plate feeder 20T returns to the standby position behind the movable plate.

【0018】次に、図10に示すように、可動板側に位
置する濾板3を固定板側へ一枚ずつ送る場合について説
明する。仮に、全ての濾板3,…,3を可動板側に送り
つけた結果、固定板1の隣側に位置する濾板3(図10
の参照番号3Zの濾板)は、固定板1から所定の開板距
離だけ可動板8側に離れた状態になっていると仮定す
る。この状態で、固定板1の左右のアーム12,12と
濾板3Zの左右のアーム12,12の連結頂部112,
112に濾板送り装置20Tの第8センサSR8,SL
8が反応してこれらを検出すると、制御装置20Kの制
御により濾板送り装置20Tを停止させる。この場合、
爪装置14,14の後位の爪27A,27Aが送り爪と
なり前位の爪27B,27Bが爪装置14,14の停止
爪となる。制御装置20Kの制御により、上記停止した
濾板送り装置20Tにある爪装置用駆動装置15,15
のエアシリンダ50,50にエアーを供給して爪装置1
4,14を濾板3Zまで後退させると、爪装置14,1
4の第1センサSR1,SL1は濾板3Zの把手7,7
に反応してこれらを検出し、制御装置20Kの制御によ
り、後位の送り爪27A,27Aを該濾板3Zの把手
7,7の後側で上昇させる。また、このとき、前位の停
止爪27B,27Bは上記濾板3Zの把手7,7の前面
に当たる。後位の送り爪27A,27Aを濾板3Zの把
手7,7の後面に係合させたまま、制御装置20Kの制
御により爪装置用駆動装置15,15を駆動して爪装置
14,14を前進させ、濾板3Zを固定板1に送り付け
る。このとき、前位の停止爪27B,27Bは降下して
いる。濾板3Zを固定板1に送り付けると、爪装置1
4,14の第3センサSR3,SL3は固定板1の左右
の突起(可動板8の左右の突起8f又は濾板3の左右の
把手7と同様に左右方向に突出した左右の突起)に反応
してこれらを検出し、この結果、制御装置20Kの制御
により爪装置用駆動装置15,15のエアシリンダ5
0,50のそれぞれのピストンが後進に切り替わる。そ
れによって、後位の送り爪27A,27Aは、濾板3Z
の把手7,7の後面から係合離脱して離れ、降下する。
制御装置20Kの制御により、爪装置14,14は次に
送る濾板3Yまで後進する。爪装置14,14の第1セ
ンサSR1,SL1が濾板3Yの把手7,7の下面に反
応してこれらを検出すると、制御装置20Kの制御によ
り、後位の送り爪27A,27Aは、該濾板3Yの把手
7,7の後側で上昇する。前位の停止爪27B,27B
が濾板3Yの把手7,7の前面に当たると、制御装置2
0Kの制御により濾板送り装置20Tは後進駆動を停止
する。このとき、濾板3Yと濾板3Zとの間に所定の開
板距離が開いているので、制御装置20Kの制御によ
り、上記濾板送り装置20Tが停止している間に、ケー
ク排出濾布洗浄などが行われる。
Next, as shown in FIG. 10, a case where the filter plates 3 located on the movable plate side are fed one by one to the fixed plate side will be described. As a result of sending all the filter plates 3,..., 3 to the movable plate side, a filter plate 3 (FIG.
Is assumed to be separated from the fixed plate 1 by a predetermined opening distance toward the movable plate 8. In this state, the connecting tops 112 of the left and right arms 12, 12 of the fixed plate 1 and the left and right arms 12, 12, of the filter plate 3Z,
112, the eighth sensor SR8, SL of the filter plate feeder 20T
8 reacts and detects these, and stops the filter plate feeder 20T under the control of the controller 20K. in this case,
The rear claws 27A, 27A of the pawl devices 14, 14 serve as feed pawls, and the front pawls 27B, 27B serve as stop pawls of the pawl devices 14, 14. By the control of the control device 20K, the claw device driving devices 15, 15 in the stopped filter plate feeding device 20T are controlled.
Air is supplied to the air cylinders 50 and 50 of the claw device 1.
4 and 14 are retracted to the filter plate 3Z.
The first sensors SR1 and SL1 are provided with handles 7 and 7 of the filter plate 3Z.
Are detected in response to the control signal, and the rear feed claws 27A, 27A are raised behind the handles 7, 7 of the filter plate 3Z under the control of the controller 20K. At this time, the front stop claws 27B, 27B are in contact with the front surfaces of the handles 7, 7 of the filter plate 3Z. With the rear feed pawls 27A, 27A engaged with the rear surfaces of the handles 7, 7 of the filter plate 3Z, the pawl device driving devices 15, 15 are driven by the control of the control device 20K, and the pawl devices 14, 14 are driven. The filter plate 3Z is advanced to send the filter plate 3Z to the fixed plate 1. At this time, the front stop claws 27B, 27B are descending. When the filter plate 3Z is sent to the fixed plate 1, the claw device 1
The fourth and fourth sensors SR3 and SL3 react to the left and right protrusions of the fixed plate 1 (the left and right protrusions 8f of the movable plate 8 or the left and right protrusions protruding in the left and right direction like the left and right handles 7 of the filter plate 3). These are detected, and as a result, the air cylinder 5 of the claw device driving devices 15 and 15 is controlled by the control device 20K.
Each of the pistons 0 and 50 switches to reverse. As a result, the rear feed claws 27A, 27A are attached to the filter plate 3Z.
From the rear surface of the handles 7, 7 to separate and descend.
Under the control of the control device 20K, the claw devices 14, 14 move backward to the next filter plate 3Y to be sent. When the first sensors SR1 and SL1 of the claw devices 14 and 14 detect and react to the lower surfaces of the handles 7 and 7 of the filter plate 3Y, under the control of the control device 20K, the rear feed claw 27A and 27A It rises behind the handles 7, 7 of the filter plate 3Y. Front stop claw 27B, 27B
Is hit on the front surface of the handles 7, 7 of the filter plate 3Y.
By the control of 0K, the filter plate feeder 20T stops the reverse drive. At this time, since a predetermined opening distance is opened between the filter plate 3Y and the filter plate 3Z, the cake discharge filter cloth cleaning is performed by the control of the controller 20K while the filter plate feeder 20T is stopped. And so on.

【0019】次に、制御装置20Kの制御により、濾板
送り装置20Tを固定板側から可動板側に後進させて、
上記同様に第8センサSR8,SL8が濾板3Yの左右
のアーム12,12と濾板3Zの左右のアーム12,1
2の連結頂部112,112に反応してこれを検出する
と、制御装置20Kの制御により濾板送り装置20Tは
走行を停止する。この状態で、送り爪27A,27Aを
濾板3Yの把手7,7の後面に当てたまま、制御装置2
0Kの制御により爪装置用駆動装置15,15を駆動し
て爪装置14,14を移動台13B,13B上で前進さ
せ、濾板3Yを濾板3Zに送り付け、第3センサSR
3,SL3が濾板3Zを検知することにより停止する。
この結果、濾板3Yの左右のアーム12,12と、濾板
3Yの隣側の後位の濾板3Xの左右のアーム12,12
との連結頂部112,112は、新たな開板距離の中央
に位置する。
Next, under the control of the controller 20K, the filter plate feeder 20T is moved backward from the fixed plate side to the movable plate side,
Similarly to the above, the eighth sensors SR8 and SL8 are connected to the left and right arms 12, 12 of the filter plate 3Y and the left and right arms 12, 1 of the filter plate 3Z.
When this is detected in response to the second connection top portions 112, 112, the filter plate feeding device 20T stops running under the control of the control device 20K. In this state, the control unit 2 keeps the feed claws 27A, 27A in contact with the rear surfaces of the handles 7, 7 of the filter plate 3Y.
Under the control of 0K, the claw device driving devices 15, 15 are driven to advance the claw devices 14, 14 on the movable bases 13B, 13B, and the filter plate 3Y is sent to the filter plate 3Z, and the third sensor SR
3. The operation stops when SL3 detects the filter plate 3Z.
As a result, the left and right arms 12, 12 of the filter plate 3Y and the left and right arms 12, 12 of the posterior filter plate 3X adjacent to the filter plate 3Y.
Is located at the center of the new opening distance.

【0020】以後、同様にして、制御装置20Kの制御
により、濾板3Xを固定板側へ送る。図10は濾板送り
装置20Tが濾板3Xを送る態勢を示している。制御装
置20Kの制御により、最後の濾板3まで送ることによ
り、濾板3,…,3を他方の固定板側へ送る濾板送りが
終了する。そして、制御装置20Kの制御により、後位
の送り爪27A,27Aと前位の停止爪27B,27B
を下降させて、前記したように、濾板移動機20Tを可
動板後方の待機位置に戻す。なお、上記したように、ケ
ーク排出機構及び濾布洗浄機構を1つのユニットにユニ
ット化した上記ケーク排出濾布洗浄装置は、予め、上記
フレーム16に対して、上記濾板送り装置20T、上記
濾布振動装置20D、及び上記濾布洗浄装置20Wを組
み込むことにより1つのユニット化することができ、こ
のようにユニット化された上記ケーク排出濾布洗浄装置
は、一端に設けた前部スタンド1と他端に設けた後部ス
タンド100との間で前後方向に沿って設けられた一対
のサイドビーム6,6に各濾板3の把手7を上記前後方
向沿いに摺動自在にそれぞれ係架したフィルタプレス本
体に対して、図13に示すように、組み込むことができ
る。すなわち、移動台13B,13Bがサイドビーム
6,6に固定された案内レール13A,13A上に載置
するように組み込んだのち、上記濾板送り装置20T、
上記濾布振動装置20D、及び上記濾布洗浄装置20W
と、上記フィルタプレス本体の制御装置20Kなどとを
適宜接続することにより、図14のような上記フィルタ
プレスを完成させることができる。
Thereafter, the filter plate 3X is similarly sent to the fixed plate side under the control of the control device 20K. FIG. 10 shows a state in which the filter plate feeding device 20T sends the filter plate 3X. By sending the filter plate 3 to the last filter plate 3 under the control of the control device 20K, the filter plate feed for sending the filter plates 3,..., 3 to the other fixed plate side is completed. Then, under the control of the control device 20K, the rear feed claws 27A, 27A and the front stop claws 27B, 27B
To return the filter plate moving device 20T to the standby position behind the movable plate as described above. In addition, as described above, the cake discharge filter cloth cleaning apparatus in which the cake discharge mechanism and the filter cloth cleaning mechanism are unitized as one unit is configured to previously set the filter plate feeder 20T and the filter The cake vibrating apparatus 20D and the filter cloth cleaning apparatus 20W can be integrated into a single unit. The cake discharge filter cloth cleaning apparatus unitized in this way includes the front stand 1 provided at one end and the front stand 1 provided at one end. A filter in which a handle 7 of each filter plate 3 is slidably slid along the front-rear direction on a pair of side beams 6, 6 provided along the front-rear direction with a rear stand 100 provided at the other end. As shown in FIG. 13, it can be incorporated into the press body. That is, after the movable bases 13B, 13B are mounted so as to be mounted on the guide rails 13A, 13A fixed to the side beams 6, 6, the filter plate feeder 20T,
The filter cloth vibrating apparatus 20D and the filter cloth cleaning apparatus 20W
The filter press as shown in FIG. 14 can be completed by appropriately connecting the filter press body control device 20K and the like.

【0021】上記実施形態によれば、ケーク排出機構及
び濾布洗浄機構、言い換えれば、濾板3を前後方向に走
行可能とする濾板送り装置20Tと、濾板送り装置20
Tのフレーム上部に備えられ濾布4を振動させる濾布振
動装置20Dと、濾板送り装置20Tのフレーム上部に
備えられ濾布4に洗浄液を噴射して洗浄する濾布洗浄装
置20Wとを備えて、濾布振動装置20Dと濾布洗浄装
置20Wとを濾板送り装置20Tのフレーム上部にそれ
ぞれ備えることにより、濾板送り装置20Tのフレーム
16を中心とした1つのユニットに、濾布振動装置20
Dと濾布洗浄装置20Wと濾板送り装置20Tとをユニ
ット化することができる。よって、装置が小型化、軽量
化してコストダウンすることができる。また、上記した
ように、ケーク排出機構及び濾布洗浄機構を1つのユニ
ットに組み付けてユニット化しているので、図13,図
14に示すように、フィルタプレスの組立方法が容易で
あり、保守時間を短縮できる。また、濾板送り機構がセ
ンサによる濾板3、可動板8、固定板1の位置検知によ
り、前進、後進をして濾板3の前後方向の両方向に送り
可能(両送り可能)としているので、ケーク排出、濾布
洗浄工程のサイクル時間を短縮することができ、又フィ
ルタプレスの処理量を増加することができる。すなわ
ち、図15に示すように、従来は、ケーク排出工程にお
いては、図15の「ケーク排出」の欄に記載されている
ような〜の動作を繰り返すことによりケーク排出と
濾布洗浄の両方の動作を行っている。すなわち、前後方
向のうちの一方向例えば固定板側から可動板側にのみ濾
板を一枚ずつ送りながら、まず、ケーク排出を行い、ケ
ーク排出終了後、一旦すべての濾板を固定板側に可動板
などにより送り付けたのち、再び、固定板側から可動板
側にのみ濾板を一枚ずつ送りながら、濾布洗浄を行うよ
うにしているため、ケーク排出終了後に一旦すべての濾
板を固定板側に可動板などにより送り付ける動作が必要
となり、サイクル時間が長くなる不具合があった。これ
に対して、上記実施形態によれば、ケーク排出工程では
図15の「ケーク排出」の欄に記載されているような
〜の動作、すなわち、前後方向のうちの一方向例えば
固定板側から可動板側にのみ濾板を一枚ずつ送りながら
ケーク排出を行ったのち、今度は逆に、可動板側から固
定板側に向けて濾板を一枚ずつ送りながら濾布洗浄動作
を行うことがてきる。よって、サイクル時間を短縮する
ことができる。さらに、濾布洗浄機構の洗浄管17の上
下の昇降はエアシリンダ401により行っているので、
エア圧以上の力がかかるような機械の破損をともなう異
常時においても、従来のパンタグラフによる機械的昇降
機構と比較して、機械の損傷が少なく安全である。な
お、両方向に濾板を送ることができる効果として、さら
に、次のような効果がある。すなわち、従来の濾布洗浄
工程においては、ケーク排出工程後、濾板締付装置によ
りすべての濾板を一度締付けてから行っているため、制
御動作を精密に行わなけければ、締付けにより圧搾膜の
損傷の可能性がある。これに対して、上記実施形態で
は、両方向に濾板を送ることができることにより、ケー
ク排出工程後でかつ濾布洗浄工程前にすべての濾板を一
度締付ける必要がなくなり、圧搾膜の損傷が少なく、寿
命を延長することができる。なお、本発明は上記実施形
態に限定されるものではなく、その他種々の態様で実施
できる。例えば、上記画面表示装置はフィルタプレスの
適所に容易に装備することができる。フィルタプレスは
単式、複式又は圧搾式のものでもよい。また、本発明は
原液の供給手段に左右されない。濾布は、濾板に走行式
に掛けられるものでも又は固定式に掛けられるものでも
でもよい。濾板の開板は、1枚ずつ開板しても又は複数
枚ずつ開板してもよい。
According to the above-described embodiment, the cake discharging mechanism and the filter cloth cleaning mechanism, in other words, the filter plate feeding device 20T for allowing the filter plate 3 to run in the front-back direction, and the filter plate feeding device 20
A filter cloth vibrating device 20D provided at the upper part of the frame of T and vibrating the filter cloth 4 and a filter cloth cleaning device 20W provided at the upper part of the frame of the filter plate feeder 20T and spraying the cleaning liquid onto the filter cloth 4 for cleaning. By providing the filter cloth vibrating device 20D and the filter cloth cleaning device 20W respectively on the upper part of the frame of the filter plate feeding device 20T, the filter cloth vibrating device is provided in one unit centering on the frame 16 of the filter plate feeding device 20T. 20
D, the filter cloth cleaning device 20W, and the filter plate feeding device 20T can be unitized. Therefore, the size and weight of the device can be reduced and the cost can be reduced. Further, as described above, since the cake discharging mechanism and the filter cloth cleaning mechanism are assembled into one unit to form a unit, the method of assembling the filter press is easy as shown in FIGS. Can be shortened. In addition, the filter plate feed mechanism is capable of moving forward and backward to feed the filter plate 3 in both front and rear directions (both feed possible) by detecting the positions of the filter plate 3, the movable plate 8 and the fixed plate 1 by the sensor. The cycle time of the cake discharging and filter cloth washing steps can be shortened, and the throughput of the filter press can be increased. That is, as shown in FIG. 15, conventionally, in the cake discharging step, by repeating the operations of ~ described in the column of "cake discharging" in FIG. 15, both the cake discharging and the filter cloth cleaning are performed. Is working. That is, while feeding the filter plates one by one only from the fixed plate side to the movable plate side in one of the front-back directions, for example, first, the cake is discharged, and after the cake discharge is completed, all the filter plates are temporarily moved to the fixed plate side. After being sent by the movable plate, etc., the filter cloth is washed while the filter plate is sent one by one only from the fixed plate side to the movable plate side again, so once the cake is discharged, all the filter plates are fixed once An operation of feeding a movable plate or the like to the plate side is required, and there has been a problem that the cycle time is long. On the other hand, according to the above-described embodiment, in the cake discharging process, the operations described in (1) described in the column of “cake discharging” in FIG. 15, that is, from one direction in the front-rear direction, for example, from the fixed plate side. Perform the cake discharge while feeding the filter plates one by one only to the movable plate side, and then perform the filter cloth cleaning operation by sending the filter plates one by one from the movable plate side to the fixed plate side. Comes. Therefore, the cycle time can be reduced. Further, since the vertical movement of the cleaning pipe 17 of the filter cloth cleaning mechanism is performed by the air cylinder 401,
Even in the event of an abnormality involving a breakage of a machine in which a force higher than the air pressure is applied, the machine is less damaged and safer than a conventional mechanical lifting mechanism using a pantograph. In addition, as an effect which can send a filter plate to both directions, the following effects are further obtained. In other words, in the conventional filter cloth cleaning process, after the cake discharging process, all the filter plates are tightened once by the filter plate tightening device. Therefore, if the control operation is not precisely performed, the compressed membrane is tightened. May be damaged. On the other hand, in the above embodiment, since the filter plate can be sent in both directions, it is not necessary to tighten all the filter plates once after the cake discharging step and before the filter cloth washing step, and the damage to the pressed membrane is reduced. , Lifespan can be extended. Note that the present invention is not limited to the above embodiment, and can be implemented in other various aspects. For example, the screen display device can be easily installed at an appropriate place of the filter press. The filter press may be of the single, double or squeeze type. Further, the present invention does not depend on the supply means of the stock solution. The filter cloth may be hung on the filter plate in a traveling manner or may be hung in a fixed manner. The filter plate may be opened one by one or a plurality of sheets.

【0022】[0022]

【発明の効果】本発明によれば、ケーク排出機構及び濾
布洗浄機構、言い換えれば、濾板を前後方向に走行可能
とする濾板送り装置と、濾板送り装置のフレーム上部に
備えられ濾布を振動させる濾布振動装置と、濾板送り装
置のフレーム上部に備えられ濾布に洗浄液を噴射して洗
浄する濾布洗浄装置とを備えて、濾布振動装置と濾布洗
浄装置とを濾板送り装置のフレーム上部にそれぞれ備え
ることにより、濾布振動装置と濾布洗浄装置と濾板送り
装置とを1つのユニットにユニット化することができ
る。よって、装置が小型化、軽量化してコストダウンす
ることができる。また、このように、ケーク排出機構及
び濾布洗浄機構を1つのユニットに組み付けてユニット
化しているので、フィルタプレスの組立方法が容易であ
り、保守時間を短縮できる。また、濾板送り機構がセン
サによる位置検知により、前進、後進をして濾板の前後
方向の両方向に送り可能(両送り可能)としているの
で、ケーク排出、濾布洗浄工程のサイクル時間を短縮す
ることができ、又フィルタプレスの処理量を増加するこ
とができる。このように両方向に濾板を送ることができ
る効果として、さらに、次のような効果がある。すなわ
ち、従来の濾布洗浄工程においては、ケーク排出工程
後、濾板締付装置によりすべての濾板を一度締付けてか
ら行っているため、制御動作を精密に行わなけければ、
締付けにより圧搾膜の損傷の可能性がある。これに対し
て、上記実施形態では、両方向に濾板を送ることができ
ることにより、ケーク排出工程後でかつ濾布洗浄工程前
にすべての濾板を一度締付ける必要がなくなり、圧搾膜
の損傷が少なく、寿命を延長することができる。さら
に、濾布洗浄機構の洗浄管の上下の昇降はエアシリンダ
により行っているので、エア圧以上の力がかかるような
機械の破損をともなう異常時においても、従来のパンタ
グラフによる機械的昇降機構と比較して、機械の損傷が
少なく安全である。
According to the present invention, a cake discharging mechanism and a filter cloth cleaning mechanism, in other words, a filter plate feeding device capable of moving the filter plate in the front-rear direction, and a filter provided on the upper portion of the frame of the filter plate feeding device. A filter cloth vibrating device that vibrates the cloth, and a filter cloth cleaning device that is provided at an upper portion of the frame of the filter plate feeding device and that sprays a cleaning liquid onto the filter cloth to clean the filter cloth; By providing the filter cloth feeding device on the upper portion of the frame, the filter cloth vibrating device, the filter cloth cleaning device, and the filter plate feeding device can be unitized into one unit. Therefore, the size and weight of the device can be reduced and the cost can be reduced. In addition, since the cake discharging mechanism and the filter cloth cleaning mechanism are assembled into one unit to form a unit, the filter press assembling method is easy and the maintenance time can be reduced. In addition, the filter plate feed mechanism can move forward and backward by the position detection by the sensor and send it in both directions of the filter plate back and forth (both feeds are possible), shortening the cycle time of cake discharge and filter cloth washing process And the throughput of the filter press can be increased. As described above, the filter plate can be sent in both directions. That is, in the conventional filter cloth cleaning process, after the cake discharging process, since all the filter plates are tightened once by the filter plate tightening device, the control operation must be performed precisely.
Tightening can damage the compression membrane. On the other hand, in the above embodiment, since the filter plate can be sent in both directions, it is not necessary to tighten all the filter plates once after the cake discharging step and before the filter cloth washing step, and the damage to the pressed membrane is reduced. , Lifespan can be extended. In addition, since the up and down of the washing pipe of the filter cloth washing mechanism is performed by an air cylinder, even in the case of an abnormality involving mechanical damage such as applying a force higher than the air pressure, the conventional pantograph mechanical lifting mechanism can be used. In comparison, the machine is less damaged and safe.

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

【図1】 本発明の一実施形態にかかるフィルタプレス
の側面図である。
FIG. 1 is a side view of a filter press according to an embodiment of the present invention.

【図2】 図1のフィルタプレスの平面図である。FIG. 2 is a plan view of the filter press of FIG.

【図3】 図1のフィルタプレスの濾板及びその周辺装
置の正面図である。
FIG. 3 is a front view of a filter plate and peripheral devices of the filter press of FIG. 1;

【図4】 図1のフィルタプレスにおいて、ケーク排出
機構及び濾布洗浄機構を1つのユニットにユニット化し
たケーク排出濾布洗浄装置の斜視図である。
FIG. 4 is a perspective view of a cake discharge filter cloth cleaning device in which the cake discharge mechanism and the filter cloth cleaning mechanism are unitized into one unit in the filter press of FIG.

【図5】 図1のフィルタプレスの上記ケーク排出濾布
洗浄装置の側面図である。
FIG. 5 is a side view of the cake discharge filter cloth cleaning device of the filter press of FIG. 1;

【図6】 図1のフィルタプレスの上記ケーク排出濾布
洗浄装置の濾布洗浄機構部分の斜視図である。
FIG. 6 is a perspective view of a filter cloth cleaning mechanism of the cake discharge filter cloth cleaning apparatus of the filter press of FIG. 1;

【図7】 図1のフィルタプレスの上記ケーク排出濾布
洗浄装置の濾布振動装置と濾板との関係を示す側面図で
ある。
FIG. 7 is a side view showing a relationship between a filter cloth vibrating device and a filter plate of the cake discharge filter cloth cleaning device of the filter press of FIG. 1;

【図8】 図1のフィルタプレスの上記ケーク排出濾布
洗浄装置の濾板送り装置の爪装置の分解斜視図である。
FIG. 8 is an exploded perspective view of a claw device of a filter plate feeding device of the cake discharge filter cloth cleaning device of the filter press of FIG. 1;

【図9】 図1のフィルタプレスの上記ケーク排出濾布
洗浄装置の上記濾板送り装置が濾板3Aを可動板側に送
る態勢を示す説明図である。
FIG. 9 is an explanatory view showing a state in which the filter plate feeding device of the cake discharge filter cloth cleaning device of the filter press of FIG. 1 sends the filter plate 3A to the movable plate side.

【図10】 図9の上記濾板送り装置が濾板3Xを固定
板側に送る態勢を示す説明図である。
FIG. 10 is an explanatory view showing a state in which the filter plate feeding device of FIG. 9 sends the filter plate 3X to the fixed plate side.

【図11】 図1のフィルタプレスの上記ケーク排出濾
布洗浄装置の上記濾板振動装置の作動によるケーク排出
状態を示す説明図である。
FIG. 11 is an explanatory view showing a cake discharge state of the filter press of FIG. 1 when the filter plate vibrating device of the cake discharge filter cloth cleaning device is operated.

【図12】 図1のフィルタプレスの上記ケーク排出濾
布洗浄装置の上記濾布洗浄装置の作動による濾布洗浄状
態を示す説明図である。
FIG. 12 is an explanatory view showing a filter cloth cleaning state of the cake press filter cloth cleaning apparatus of the filter press of FIG. 1 by operating the filter cloth cleaning apparatus.

【図13】 図1のフィルタプレスの上記ケーク排出濾
布洗浄装置を組み込む状態を示す説明図である。
FIG. 13 is an explanatory view showing a state where the cake discharge filter cloth cleaning device of the filter press of FIG. 1 is incorporated.

【図14】 図1のフィルタプレスの上記ケーク排出濾
布洗浄装置を組み込んだ状態を示す説明図である。
FIG. 14 is an explanatory view showing a state in which the cake discharge filter cloth cleaning device of the filter press of FIG. 1 is incorporated.

【図15】 図1のフィルタプレスの上記ケーク排出濾
布洗浄装置の作動を示す説明図である。
FIG. 15 is an explanatory view showing the operation of the cake discharge filter cloth cleaning device of the filter press of FIG. 1;

【図16】 図1のフィルタプレスの上記ケーク排出濾
布洗浄装置の作動を示すフローチャートである。
FIG. 16 is a flowchart showing the operation of the cake discharge filter cloth cleaning device of the filter press of FIG. 1;

【図17】 図1のフィルタプレスの制御装置と各セン
サなどとの接続関係を示す説明図である。
17 is an explanatory diagram showing a connection relationship between the control device of the filter press of FIG. 1 and each sensor and the like.

【符号の説明】[Explanation of symbols]

1…固定板、2…駆動装置、3…濾板、4…濾布、5…
濾布吊り棒、6…サイドビーム、7…把手、8…可動
板、10G…操作盤、12…アーム、13…案内レー
ル、14…爪装置、15…爪装置用駆動装置、16…濾
板送り装置フレーム、17…洗浄管、18…チェーン、
19…モータ、20D…振動装置、20F…受皿装置、
20K…制御装置、20T…濾板送り装置、20U…締
付装置、20W…洗浄装置、22,23…車輪、24…
ピン、25…受皿、27…濾板送り爪、27A,27B
…前位の爪及び後位の爪、27C,27D…前位の爪の
爪駆動装置及び後位の爪の爪駆動装置、27G…ガイ
ド、50…エアシリンダ、303…ハンマ、400,4
01…エアシリンダ。
DESCRIPTION OF SYMBOLS 1 ... Fixed plate, 2 ... Drive device, 3 ... Filter plate, 4 ... Filter cloth, 5 ...
Filter cloth hanging rod, 6 ... side beam, 7 ... handle, 8 ... movable plate, 10G ... operation panel, 12 ... arm, 13 ... guide rail, 14 ... claw device, 15 ... claw device drive device, 16 ... filter plate Feeder frame, 17 ... Wash pipe, 18 ... Chain,
19: Motor, 20D: Vibration device, 20F: Receiving device,
20K: Control device, 20T: Filter plate feed device, 20U: Tightening device, 20W: Cleaning device, 22, 23: Wheel, 24 ...
Pin, 25: Receiving tray, 27: Filter plate feed claw, 27A, 27B
... Front and rear nails, 27C and 27D. Front and rear nail driving devices, 27G. Guide, 50. Air cylinder, 303. Hammer, 400, 4.
01 ... Air cylinder.

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】 一端に設けた前部スタンド(1)と他端
に設けた後部スタンド(100)との間で前後方向に沿
って設けられたサイドビーム(6)に各濾板(3)の把
持部(7)を上記前後方向沿いに摺動自在にそれぞれ係
架したフィルタプレスにおいて、 上記濾板の上記把持部に係合して上記濾板を上記サイド
ビームに沿って前後方向に進退可能とする爪装置(1
4)と、上記爪装置を前後方向に走行させる爪装置用駆
動装置(15)と、濾板送り装置用駆動装置(19)と
を備え、上記濾板送り装置用駆動装置の駆動により、上
記サイドビームに沿って前後方向に走行可能とする濾板
送り装置(20T)と、 濾板送り装置のフレーム上部に備えた濾布振動装置用エ
アシリンダ(400)の駆動により濾布吊り棒(5)を
たたくハンマ(303)を有する濾布振動装置(20
D)と、 上記濾布に洗浄液を噴射する洗浄ノズルを多数備えた洗
浄管(17)と、上記濾板送り装置のフレーム上部に備
えかつ上記濾布(4)間で上記洗浄管を上下動させるエ
アシリンダ(401)とを有する濾布洗浄装置(20
W)と、 上記濾板送り装置(20T)、上記濾布振動装置(20
D)及び上記濾布洗浄装置(20W)の動作制御を行う
制御装置(20K)と、を備えることを特徴とするフィ
ルタプレスのケーク排出濾布洗浄装置。
1. A side beam (6) provided along a front-rear direction between a front stand (1) provided at one end and a rear stand (100) provided at the other end, and each filter plate (3). In the filter press in which the holding portion (7) of the filter press is slidably slid along the front and rear direction, the filter plate is engaged with the holding portion of the filter plate and the filter plate is moved forward and backward along the side beam. Claw device (1
4) a driving device (15) for a claw device for causing the claw device to travel in the front-rear direction; and a driving device (19) for a filter plate feeding device. The filter cloth feed rod (5) is driven by a filter plate feeder (20T) capable of traveling in the front-rear direction along the side beam, and a filter cloth vibrator air cylinder (400) provided at the upper part of the frame of the filter plate feeder. Filter cloth vibrating device (20) having a hammer (303)
D), a washing pipe (17) provided with a large number of washing nozzles for spraying a washing liquid onto the filter cloth, and a washing pipe provided at an upper portion of a frame of the filter plate feeding device and vertically moving the washing pipe between the filter cloths (4). Filter cleaning device (20) having an air cylinder (401)
W), the filter plate feeder (20T), and the filter cloth vibrator (20T).
D) and a control device (20K) for controlling the operation of the filter cloth cleaning device (20W).
【請求項2】 上記濾布送り装置(20T)の上記爪装
置は、上記濾板の把持部に係合する送り爪(27B,2
7A)と、上記濾板の送り動作中に送り方向前側に位置
する濾板の把持部に当接する停止爪(27A,27B)
と、 上記濾板の送り動作中に上記前後方向のうちの一方向へ
送ろうとする濾板(3)を検出する第1センサ(SR
1,SL1)と、 上記送ろうとする濾板(3)の後側の位置に並ぶ濾板を
検出する第2センサ(SR2,SL2)と、 上記送ろうとする濾板の前側の位置に並ぶ濾板を検出す
る第3センサ(SR3,SL3)とを備えるとともに、 上記爪装置用駆動装置は、上記爪装置を前後方向に走行
させるエアシリンダ(50)により構成し、 上記濾板送り装置用駆動装置はモータ(19)より構成
され、該モータの駆動をチェーン(18)を介して伝達
して、上記サイドビームに沿って前後方向に上記濾板送
り装置を走行可能とする請求項1に記載のフィルタプレ
スのケーク排出濾布洗浄装置。
2. The claw device of the filter cloth feeding device (20T) includes a feeding claw (27B, 2B) that engages with a grip portion of the filter plate.
7A) and a stop claw (27A, 27B) that comes into contact with a gripping portion of the filter plate located on the front side in the feed direction during the feed operation of the filter plate.
And a first sensor (SR) for detecting a filter plate (3) to be fed in one of the front-rear directions during the feeding operation of the filter plate.
1, SL1); a second sensor (SR2, SL2) for detecting a filter plate arranged at a position behind the filter plate (3) to be sent; and a filter arranged at a position in front of the filter plate to be sent. A third sensor (SR3, SL3) for detecting a plate, wherein the driving device for the pawl device is constituted by an air cylinder (50) for moving the pawl device in the front-rear direction; 2. The apparatus according to claim 1, wherein the apparatus is constituted by a motor (19), and the drive of the motor is transmitted through a chain (18) so that the filter plate feeder can travel in the front-rear direction along the side beam. Filter press cake discharge filter cloth cleaning device.
【請求項3】 上記濾板送り装置(20T)は、 固定板側に位置する濾板の上記把持部に上記爪装置が係
合して上記爪装置を上記爪装置用駆動装置により可動板
側に走行させることにより、上記濾板を1枚ずつ可動板
側へ送る機構と、 可動板側に位置する濾板の上記把持部に上記爪装置が係
合して上記爪装置を上記爪装置用駆動装置により固定板
側に走行させることにより、上記濾板を1枚ずつ固定板
側へ送る機構とを設けてなる請求項1又は2に記載のフ
ィルタプレスのケーク排出濾布洗浄装置。
3. The filter plate feeding device (20T), wherein the claw device is engaged with the grip portion of the filter plate located on the fixed plate side, and the claw device is moved by the claw device driving device to the movable plate side. And a mechanism for feeding the filter plates one by one to the movable plate side, and the claw device is engaged with the grip portion of the filter plate located on the movable plate side, and the claw device is used for the claw device. 3. The cake discharge filter cloth cleaning apparatus for a filter press according to claim 1, further comprising a mechanism for feeding the filter plates one by one to the fixed plate side by running the filter plate to the fixed plate side by a driving device.
【請求項4】 上記濾布振動装置(20D)は、上記濾
板送り装置(20T)の上記可動板側へ濾板を送る機構
により、上記濾板を1枚ずつ可動板側へ送るとき、上記
濾布振動装置用エアシリンダ(400)の駆動により上
記ハンマで上記濾布吊り棒(5)をたたいて上記濾布を
振動させて上記濾板からのケーク排出を促進させるもの
であり、 上記濾布洗浄装置(20W)は、上記濾板送り装置(2
0T)の上記固定板側へ濾板を送る機構により、上記濾
板を1枚ずつ固定板側へ送るとき、上記濾布洗浄装置の
上記エアシリンダ(401)により上記濾布(4)間で
上記洗浄管(17)を上下動させて上記洗浄ノズルから
上記濾布に洗浄液を噴射するものである請求項3に記載
のフィルタプレスのケーク排出濾布洗浄装置。
4. The filter cloth vibrating device (20D) is configured to send the filter plates one by one to the movable plate side by a mechanism for sending the filter plates to the movable plate side of the filter plate feeder (20T). By driving the air cylinder (400) for the filter cloth vibrating device, the filter cloth is vibrated by hitting the filter cloth hanging rod (5) with the hammer to accelerate the cake discharge from the filter plate; The filter cloth cleaning device (20W) is provided with the filter plate feeding device (2
0T), when the filter plates are sent one by one to the fixed plate side by the mechanism for sending the filter plates to the fixed plate side, the air cylinder (401) of the filter cloth washing device causes the filter cloths (4) to pass between the filter cloths. The cake discharge filter cloth cleaning apparatus of a filter press according to claim 3, wherein the cleaning pipe (17) is moved up and down to inject a cleaning liquid from the cleaning nozzle to the filter cloth.
JP13710799A 1999-05-18 1999-05-18 Filter press cake discharge filter cloth cleaning device Expired - Lifetime JP3260725B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP13710799A JP3260725B2 (en) 1999-05-18 1999-05-18 Filter press cake discharge filter cloth cleaning device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP13710799A JP3260725B2 (en) 1999-05-18 1999-05-18 Filter press cake discharge filter cloth cleaning device

Publications (2)

Publication Number Publication Date
JP2000325707A true JP2000325707A (en) 2000-11-28
JP3260725B2 JP3260725B2 (en) 2002-02-25

Family

ID=15191021

Family Applications (1)

Application Number Title Priority Date Filing Date
JP13710799A Expired - Lifetime JP3260725B2 (en) 1999-05-18 1999-05-18 Filter press cake discharge filter cloth cleaning device

Country Status (1)

Country Link
JP (1) JP3260725B2 (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100795218B1 (en) 2007-08-07 2008-01-17 이건호 Apparatus for removing sludge and washing tamis of filter press
KR100870708B1 (en) 2008-05-27 2008-11-27 주식회사 에코셋 Filter press with up and down filter cloth
CN103657176A (en) * 2013-12-13 2014-03-26 顾汉青 Solid and liquid separator for materials
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KR101738389B1 (en) * 2016-11-04 2017-05-23 (주)동일캔바스엔지니어링 Apparatus for washing multi filter cloths of filter press at once
CN112774268A (en) * 2020-12-18 2021-05-11 第一环保(深圳)股份有限公司 Self-cleaning mechanism for filter cloth deslagging of filter press
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100795218B1 (en) 2007-08-07 2008-01-17 이건호 Apparatus for removing sludge and washing tamis of filter press
KR100870708B1 (en) 2008-05-27 2008-11-27 주식회사 에코셋 Filter press with up and down filter cloth
JP2014124534A (en) * 2012-12-25 2014-07-07 Ishigaki Co Ltd Filter press
CN103657176A (en) * 2013-12-13 2014-03-26 顾汉青 Solid and liquid separator for materials
KR101738389B1 (en) * 2016-11-04 2017-05-23 (주)동일캔바스엔지니어링 Apparatus for washing multi filter cloths of filter press at once
CN112774268A (en) * 2020-12-18 2021-05-11 第一环保(深圳)股份有限公司 Self-cleaning mechanism for filter cloth deslagging of filter press
CN112774268B (en) * 2020-12-18 2022-04-08 第一环保(深圳)股份有限公司 Self-cleaning mechanism for filter cloth deslagging of filter press
WO2022127709A1 (en) * 2020-12-18 2022-06-23 第一环保深圳股份有限公司 Filter cloth hanging-hammer striking liquid-spraying self-cleaning mechanism of filter press
CN113354176A (en) * 2021-07-02 2021-09-07 河北恒创环保科技有限公司 Mother liquor treatment method after electroplating solution evaporation treatment and plate-and-frame filter press used for same
CN113354176B (en) * 2021-07-02 2022-04-19 河北恒创环保科技有限公司 Mother liquor treatment method after electroplating solution evaporation treatment and plate-and-frame filter press used for same

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