JP6718093B1 - Old cardboard recovery equipment with high compression rate - Google Patents

Old cardboard recovery equipment with high compression rate Download PDF

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JP6718093B1
JP6718093B1 JP2019140014A JP2019140014A JP6718093B1 JP 6718093 B1 JP6718093 B1 JP 6718093B1 JP 2019140014 A JP2019140014 A JP 2019140014A JP 2019140014 A JP2019140014 A JP 2019140014A JP 6718093 B1 JP6718093 B1 JP 6718093B1
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pulley
shaft
chamber
fixedly connected
power chamber
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JP2020203312A (en
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徐増
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广州成呈智能科技有限公司
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B09DISPOSAL OF SOLID WASTE; RECLAMATION OF CONTAMINATED SOIL
    • B09BDISPOSAL OF SOLID WASTE NOT OTHERWISE PROVIDED FOR
    • B09B3/00Destroying solid waste or transforming solid waste into something useful or harmless
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B09DISPOSAL OF SOLID WASTE; RECLAMATION OF CONTAMINATED SOIL
    • B09BDISPOSAL OF SOLID WASTE NOT OTHERWISE PROVIDED FOR
    • B09B5/00Operations not covered by a single other subclass or by a single other group in this subclass
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/0006Cutting members therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/01Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
    • B26D1/547Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a wire-like cutting member
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D5/00Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D5/08Means for actuating the cutting member to effect the cut
    • B26D5/086Electric, magnetic, piezoelectric, electro-magnetic means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/06Arrangements for feeding or delivering work of other than sheet, web, or filamentary form
    • B26D7/0625Arrangements for feeding or delivering work of other than sheet, web, or filamentary form by endless conveyors, e.g. belts
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/27Means for performing other operations combined with cutting
    • B26D7/32Means for performing other operations combined with cutting for conveying or stacking cut product
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/28Presses specially adapted for particular purposes for forming shaped articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/0006Cutting members therefor
    • B26D2001/0013Cutting members therefor consisting of a reciprocating or endless band

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Forests & Forestry (AREA)
  • Environmental & Geological Engineering (AREA)
  • Transmission Devices (AREA)
  • Processing Of Solid Wastes (AREA)

Abstract

【課題】本発明は高圧縮率を持つ古い段ボール回収設備を開示した。【解決手段】回収箱を含み、前記回収箱の中には動力チャンバが設置され、前記回収箱の中には前記動力チャンバの左側に位置した上方と右方に開口した原料チャンバが設置され、前記原料チャンバが圧縮待ちの古い段ボールを保存でき、前記回収箱の中には前記動力チャンバの右下側に位置した上方と右方に開口した圧縮チャンバが設置され、前記動力チャンバの中には前記原料チャンバの前側に位置した送り装置が設置され、前記送り装置が前記原料チャンバの中から古い段ボールを取り出すことができる。【選択図】図1The present invention discloses an old corrugated board recovery facility having a high compression rate. A collection chamber, a power chamber is installed in the collection box, and a raw material chamber located on the left side of the power chamber and open to the right is installed in the collection box. The raw material chamber can store old cardboard awaiting compression, and the recovery chamber is provided with a compression chamber located at the lower right side of the power chamber and opened to the upper right side. A feeding device is installed at the front side of the raw material chamber, and the feeding device can take out old corrugated board from the raw material chamber. [Selection diagram] Figure 1

Description

本発明は古い段ボール圧縮回収技術分野を取り上げて、具体的には高圧縮率を持つ古い段ボール回収設備である。 The present invention deals with the field of old cardboard compression and recovery technology, and specifically is an old cardboard recovery facility with a high compression rate.

段ボールは、ライナー紙と段ロールにより加工された波状の段ボール芯とが貼り合わせられて生成された板状の紙製品であり、一般的にはシングル段ボールとダブル段ボールに分けられ、段ボールのサイズによって、Aと、Bと、Cと、Dと、Eの五種類に分けられ、段ボールの発明と応用には百年以上の歴史があり、コストが低いことや、重さが軽いことや、加工しやすいことや、耐圧性が強いことや、印刷適応性が良いことや、保存運搬が便利なことなどのメリットを持ち、80%以上の段ボールはリサイクルされることができ、段ボールは食べ物とデジタル製品の包装のために使用されることができ、環境に優しく、広く使われており、段ボールを使用した後、一般的にはリサイクルし、回収する過程では、段ボールのよい耐圧性のため段ボールが圧縮されにくく、古い段ボールが圧縮されなくて直接に梱包し運搬され、その結果、古い段ボールが大きな空間を占め、運輸コストを高め、本発明は以上の問題を解決できる設備を開示する。 Corrugated board is a plate-shaped paper product that is produced by bonding a liner paper and a corrugated corrugated core processed by corrugated rolls, and is generally divided into single corrugated board and double corrugated board. , A, B, C, D, and E, there are more than 100 years of invention and application of corrugated board, low cost, light weight, and processed. It has the advantages of being easy, having high pressure resistance, good printing adaptability, and convenient for storage and transportation. More than 80% of the cardboard can be recycled. It can be used for packaging, eco-friendly and widely used, after the cardboard is used, generally in the process of recycling and recovery, the cardboard is compressed due to good pressure resistance of the cardboard. It is difficult to prevent the old cardboard from being packed and transported directly without being compressed. As a result, the old cardboard occupies a large space, increases the transportation cost, and the present invention discloses a facility capable of solving the above problems.

中国特許出願公開第109109362号明細書Chinese Patent Application Publication No. 109109362

本発明の目的は高圧縮率を持つ古い段ボール回収設備を提供し、それは上記の現在の技術中の問題を解決できる。 The object of the present invention is to provide an old cardboard recovery facility with a high compression ratio, which can solve the problems in the current state of the art mentioned above.

技術問題:段ボールが良い耐圧性を持って圧縮されにくいため、段ボールが占めた空間が大きく、回収運搬のコストが高い。 Technical problem: Since the cardboard has good pressure resistance and is difficult to compress, the space occupied by the cardboard is large and the cost of collection and transportation is high.

上記の課題を解決するため、本発明は以下の技術プランを採用する:本発明の高圧縮率を持つ古い段ボール回収設備は、回収箱を含み、前記回収箱の中には動力チャンバが設置され、前記回収箱の中には前記動力チャンバの左側に位置した上方と右方に開口した原料チャンバが設置され、前記原料チャンバが圧縮待ちの古い段ボールを保存でき、前記回収箱の中には前記動力チャンバの右下側に位置した上方と右方に開口した圧縮チャンバが設置され、前記動力チャンバの中には前記原料チャンバの前側に位置した送り装置が設置され、前記送り装置が前記原料チャンバの中から古い段ボールを取り出すことができ、前記動力チャンバの中には前記送り装置の右側に位置した古い段ボールを運輸して初期圧縮できる伝送装置が設置され、前記動力チャンバの中には前記伝送装置の前後両側に位置した対称な切断装置が設置され、前記切断装置が段ボール芯を切断でき、前記動力チャンバの中には前記伝送装置の上側に位置した連動装置が設置され、前記動力チャンバの中には前記連動装置の右側に位置した圧縮装置が設置され、前記圧縮装置が切断された段ボールを更に圧縮でき、前記連動装置は前記動力チャンバの中に回転できるように連結される回転盤と、前記回転盤に固定的に連結される長クランクと、前記回転盤に固定的に連結され且つ前記長クランクの右側に位置した短クランクと、前記短クランクにヒンジにより連結される連結ロッドにより、また前記回転盤と前記長クランクとの回転を利用し、前記圧縮装置を運動連動させることができ、同時に前記回転盤が前記短クランクと前記連結ロッドにより前記送り装置を運動連動させることができる。 In order to solve the above problems, the present invention adopts the following technical plan: The old cardboard recovery equipment with high compressibility of the present invention includes a recovery box, and a power chamber is installed in the recovery box. In the collection box, a raw material chamber located on the left side of the power chamber and opened to the right side is installed, and the raw material chamber can store old cardboard waiting to be compressed. A compression chamber that is located on the lower right side of the power chamber and that opens to the right is installed, a feeding device that is located in front of the raw material chamber is installed in the power chamber, and the feeding device is the raw material chamber. There is a transmission device that can take out old cardboard from the inside of the power chamber and that can transport the old cardboard located on the right side of the feeding device to perform initial compression in the power chamber. Symmetrical cutting devices located on both front and rear sides of the device are installed, the cutting device can cut a corrugated cardboard core, and an interlocking device located above the transmission device is installed in the power chamber. A compressing device located on the right side of the interlocking device is installed therein, the compressing device can further compress the corrugated cardboard, and the interlocking device is connected to the power chamber so as to be rotatable. A long crank fixedly connected to the rotary disk, a short crank fixedly connected to the rotary disk and positioned on the right side of the long crank, and a connecting rod hingedly connected to the short crank, Further, by utilizing the rotation of the turntable and the long crank, the compression device can be kinematically linked, and at the same time, the turntable can kinematically link the feed device by the short crank and the connecting rod.

優選的には、前記圧縮チャンバの右側開口には箱ドアが回転できるように連結されている。 Preferentially, a box door is rotatably connected to the right opening of the compression chamber.

前記送り装置は前記動力チャンバの前側内壁に回転できるように連結された前後に延びている歯車軸を含み、前記歯車軸には方向変更歯車が固定的に連結され、前記歯車軸の下端には送りラックが噛合するように連結され、前記送りラックの後端には前記原料チャンバの下側内壁にスライドできるように連結される長プッシュブロックが固定的に連結され、前記長プッシュブロックが前記原料チャンバの前側端面から伸び出し、前記方向変更歯車の上端には前記原料チャンバの前側端面にスライドできるように連結されるラックが噛合するように連結されている。 The feeding device includes a front and rear extending gear shaft rotatably connected to a front inner wall of the power chamber, a direction changing gear is fixedly connected to the gear shaft, and a lower end of the gear shaft is attached to the lower end of the gear shaft. A feed rack is connected so as to mesh with each other, and a long push block that is slidably connected to a lower inner wall of the raw material chamber is fixedly connected to a rear end of the feed rack, and the long push block is the raw material. A rack that extends from the front end surface of the chamber and that is slidably connected to the front end surface of the raw material chamber is meshed with the upper end of the direction changing gear.

前記伝送装置は前記動力チャンバの内壁に回転できるように連結される左右対称な二本のプーリー軸を含み、前記プーリー軸が前後に伸びており、且つ前記歯車軸の右下側に位置しており、前記プーリー軸にはプーリーが固定的に連結され、左右両側の前記プーリーの間にはベルトコンベヤーが連結され、左側の前記プーリー軸には前記動力チャンバの前側内壁に固定的に連結されるモーターが伝動できるように連結され、左側の前記プーリー軸には前記プーリーと前記モーターとの間に位置した同期プーリーが固定的に連結され、左側の前記プーリー軸には前記プーリーの後側に位置した主プーリーが固定的に連結され、前記動力チャンバの中には前記プーリー軸の上側に位置した左右対称な二本の連動軸が回転できるように連結され、前記連動軸が前後に延びており、且つ前記連動軸には圧着プーリーが固定的に連結され、左右両側の前記圧着プーリーの間にはVベルトが連結され、左側の前記連動軸には前記圧着プーリーの後側に位置した副プーリーが固定的に連結され、前記副プーリーと前記主プーリーとの間には平ベルトが連結され、右側の前記連動軸には前記圧着プーリーの後側に位置した副マルチ楔プーリーが固定的に連結されている。 The transmission device includes two symmetric pulley shafts that are rotatably connected to the inner wall of the power chamber, the pulley shafts extend in the front-rear direction, and are located on the lower right side of the gear shaft. A pulley is fixedly connected to the pulley shaft, a belt conveyor is connected between the left and right pulleys, and a left pulley shaft is fixedly connected to a front inner wall of the power chamber. A motor is drivingly connected to the left pulley shaft, and a synchronous pulley located between the pulley and the motor is fixedly connected to the left pulley shaft, and the left pulley shaft is located behind the pulley. The main pulley is fixedly connected, and two symmetrical interlocking shafts located above the pulley shaft are rotatably connected in the power chamber, and the interlocking shaft extends forward and backward. A crimping pulley is fixedly connected to the interlocking shaft, a V belt is connected between the left and right crimping pulleys, and a sub-pulley located behind the crimping pulley is connected to the left interlocking shaft. Is fixedly connected, a flat belt is connected between the sub pulley and the main pulley, and a sub multi-wedge pulley located behind the crimping pulley is fixedly connected to the interlocking shaft on the right side. Has been done.

前記切断装置は前記動力チャンバの下側内壁に回転できるように連結される前後対称な二本の滑車輪軸を含み、前記滑車輪軸が上下に伸びており、前記滑車輪軸の上端には滑車輪が固定的に連結され、前後両側の前記滑車輪の間には上下対称な二本の線鋸が連結され、前側の前記滑車輪軸には前記滑車輪の下側に位置した副傘歯車が固定的に連結され、前記動力チャンバの前側内壁には前後に延びている複合軸が回転できるように連結され、前記複合軸には前記副傘歯車と噛合するように連結される主傘歯車が固定的に連結され、前記複合軸には前記主傘歯車の前側に位置した副同期プーリーが固定的に連結され、前記副同期プーリーと前記同期プーリーとの間には同期ベルトが連結されている。 The cutting device includes two longitudinally symmetrical sheave shafts that are rotatably connected to the lower inner wall of the power chamber, the sheave shafts extending vertically, and the sheaves at the upper ends of the sheave shafts. It is fixedly connected, and two vertically symmetrical wire saws are connected between the front and rear sheave wheels, and the auxiliary bevel gear positioned below the sheave wheel is fixed to the front sheave wheel shaft. And a main bevel gear fixedly connected to the front inner wall of the power chamber so as to be rotatable, and a main bevel gear connected to the sub-bevel gear so as to mesh with the auxiliary bevel gear. A sub-synchronous pulley located on the front side of the main bevel gear is fixedly connected to the composite shaft, and a synchronous belt is connected between the sub-synchronous pulley and the synchronous pulley.

優選的には、前記線鋸が段ボール芯を切断でき、段ボールの耐圧構造を破壊する。 Preferentially, the wire saw can cut the corrugated board core and destroy the pressure resistant structure of the corrugated board.

前記連動装置は前記動力チャンバの後側内壁に回転できるように連結される前後に延びている回転盤軸を含み、前記回転盤軸にはマルチ楔プーリーが固定的に連結され、前記マルチ楔プーリーと前記副マルチ楔プーリーとの間にはマルチ楔ベルトが連結され、前記回転盤と前記回転盤軸とが固定的に連結され、且つ前記マルチ楔プーリーの前側に位置しており、前記動力チャンバの前側内壁には前記回転盤軸の左側に位置した前後に延びている回転軸が回転できるように連結され、前記回転軸には前記連結ロッドの左端にヒンジにより連結される扇状歯車が固定的に連結され、前記扇状歯車と前記ラックとが互いに噛合するように連結され、前記扇状歯車には揺動ロッドがヒンジにより連結され、前記揺動ロッドと前記扇状歯車とのヒンジにより連結されるところが前記連結ロッドと前記扇状歯車とのヒンジにより連結されるところの上側に位置しており、前記揺動ロッドの中間部が前記長クランクとヒンジにより連結されている。 The interlocking device includes a front and rear extending rotary disc shaft rotatably connected to a rear inner wall of the power chamber, and a multi-wedge pulley is fixedly coupled to the rotary disc shaft. A multi-wedge belt is connected between the sub-multi-wedge pulley and the sub-wedge pulley, the rotary disc and the rotary disc shaft are fixedly coupled to each other, and the multi-wedge pulley is positioned in front of the multi-wedge pulley. Is connected to the front inner wall of the rotary disc shaft on the left side of the rotary disc shaft so as to extend in the front-rear direction, and a fan-shaped gear fixed to the left end of the connecting rod by a hinge is fixed to the rotary shaft. The fan-shaped gear and the rack are connected so as to mesh with each other, and a swing rod is connected to the fan-shaped gear by a hinge, and the swing rod and the fan-shaped gear are connected by a hinge. It is located on the upper side where the connecting rod and the fan-shaped gear are connected by the hinge, and the intermediate portion of the swing rod is connected by the hinge to the long crank.

優選的には、前記圧縮装置は前記揺動ロッドとヒンジにより連結される従動ロッドを含み、前記従動ロッドの右端にはプッシュロッドがヒンジにより連結され、前記動力チャンバの右側内壁にはスライド台が固定的に連結され、前記スライド台の左側端面と前記プッシュロッドとがスライドできるように連結され、前記プッシュロッドの下端には段ボールを更に圧縮できる押しブロックが固定的に連結されている。 Preferentially, the compression device includes a driven rod connected to the swing rod by a hinge, a push rod is connected to the right end of the driven rod by a hinge, and a slide stand is attached to the right inner wall of the power chamber. The left end surface of the slide base and the push rod are slidably connected to each other so as to be slidable, and the lower end of the push rod is fixedly connected to a push block capable of further compressing cardboard.

本発明の有益な効果は:本発明は運輸切断装置により、古い段ボールがベルトコンベヤーで運輸される過程で線鋸に段ボール芯が切断され、段ボールの耐圧構造を破壊し、段ボールが圧縮されやすくなり、それにより段ボールの圧縮率を高め、同時に複合伝動装置内のダブルクランク機構は運輸切断装置の動力をそれぞれ古い段ボール送り装置と圧縮装置に伝達し、それにより連続化の古い段ボール切断圧縮過程を実現し、古い段ボールの加工効率を高める。 The beneficial effects of the present invention are: The present invention uses the transport cutting device to cut the corrugated cardboard core into the wire saw in the process of transporting the old corrugated cardboard on the belt conveyor, destroying the pressure resistant structure of the corrugated cardboard, and easily compressing the corrugated cardboard. By doing so, the compression rate of corrugated board is increased, and at the same time, the double crank mechanism in the compound transmission transmits the power of the transport cutting device to the old corrugated board feeding device and the compression device, respectively, thereby realizing the continuous old corrugated board cutting and compression process. And improve the processing efficiency of old cardboard.

下記に図1〜5をあわせて本発明について詳しく説明し、便利に説明するために、下記の方向を以下のように規定する:図1は本発明装置の正面図であり、以下に述べる上下左右前後の方向と図1の自身投影関係の上下左右前後の方向とが一致である。 In order to describe the present invention in detail in conjunction with FIGS. 1 to 5 below and to explain it conveniently, the following directions are defined as follows: FIG. 1 is a front view of the device of the present invention, and The left, right, front, and rear directions and the up, down, left, right, front, and rear directions of the self-projection relationship in FIG.

図1は本発明の高圧縮率を持つ古い段ボール回収設備の全体構造概略図FIG. 1 is a schematic view of the entire structure of an old corrugated board recovery facility having a high compression rate according to the present invention. 図2は図1のA―A方向の構造概略図FIG. 2 is a schematic view of the structure in the AA direction of FIG. 図3は図1のB―B方向の構造概略図FIG. 3 is a schematic view of the structure in the BB direction of FIG. 図4は図3のC―C方向の構造概略図FIG. 4 is a schematic view of the structure in the CC direction of FIG. 図5は図1のD―D方向の構造概略図FIG. 5 is a schematic diagram of the structure in the DD direction of FIG.

本発明の高圧縮率を持つ古い段ボール回収設備は、主に古い段ボール圧縮回収に適用され、以下に付図を合わせて本発明について詳しく説明する: The high compression rate old cardboard recovery equipment of the present invention is mainly applied to the old cardboard compression recovery, and the present invention will be described in detail with reference to the following drawings:

本発明の前記高圧縮率を持つ古い段ボール回収設備は、回収箱11を含み、前記回収箱11の中には動力チャンバ12が設置され、前記回収箱11の中には前記動力チャンバ12の左側に位置した上方と右方に開口した原料チャンバ17が設置され、前記原料チャンバ17が圧縮待ちの古い段ボールを保存でき、前記回収箱11の中には前記動力チャンバ12の右下側に位置した上方と右方に開口した圧縮チャンバ29が設置され、前記動力チャンバ12の中には前記原料チャンバ17の前側に位置した送り装置101が設置され、前記送り装置101が前記原料チャンバ17の中から古い段ボールを取り出すことができ、前記動力チャンバ12の中には前記送り装置101の右側に位置した古い段ボールを運輸して初期圧縮できる伝送装置102が設置され、前記動力チャンバ12の中には前記伝送装置102の前後両側に位置した対称な切断装置103が設置され、前記切断装置103が段ボール芯を切断でき、前記動力チャンバ12の中には前記伝送装置102の上側に位置した連動装置104が設置され、前記動力チャンバ12の中には前記連動装置104の右側に位置した圧縮装置105が設置され、前記圧縮装置105が切断された段ボールを更に圧縮でき、前記連動装置104は前記動力チャンバ12の中に回転できるように連結される回転盤22と、前記回転盤22に固定的に連結される長クランク21と、前記回転盤22に固定的に連結され且つ前記長クランク21の右側に位置した短クランク54と、前記短クランク54にヒンジにより連結される連結ロッド23により、また前記回転盤22と前記長クランク21との回転を利用し、前記圧縮装置105を運動連動させることができ、同時に前記回転盤22が前記短クランク54と前記連結ロッド23により前記送り装置101を運動連動させることができる。 The old cardboard recovery equipment with high compression rate of the present invention includes a recovery box 11, a power chamber 12 is installed in the recovery box 11, and the recovery box 11 has a left side of the power chamber 12. A raw material chamber 17 having an upper opening and a right opening is installed at the raw material chamber 17, and the raw material chamber 17 can store old cardboard waiting to be compressed. The raw material chamber 17 is located at the lower right side of the power chamber 12 in the recovery box 11. A compression chamber 29 that opens upward and to the right is installed, a feed device 101 located in front of the raw material chamber 17 is installed in the power chamber 12, and the feed device 101 is installed in the raw material chamber 17. A transmission device 102 that can take out old cardboard and that can transport the old cardboard located on the right side of the feeding device 101 to perform initial compression is installed in the power chamber 12. Symmetrical cutting devices 103 located on both front and rear sides of the transmission device 102 are installed, the cutting device 103 can cut a corrugated cardboard core, and an interlocking device 104 located above the transmission device 102 is provided in the power chamber 12. A compression device 105 installed on the right side of the interlocking device 104 is installed in the power chamber 12, and the corrugated cardboard cut by the compression device 105 can be further compressed. A turntable 22 that is rotatably connected to the inside, a long crank 21 that is fixedly connected to the turntable 22, and a position that is fixedly connected to the turntable 22 and to the right of the long crank 21. The short crank 54 and the connecting rod 23 connected to the short crank 54 by a hinge, and the rotation of the turntable 22 and the long crank 21 can be used to interlock the compression device 105 with each other. At the same time, the turntable 22 can interlock the feeding device 101 by the short crank 54 and the connecting rod 23.

有益的には、前記圧縮チャンバ29の右側開口には箱ドア28が回転できるように連結されている。 Beneficially, a box door 28 is rotatably connected to the right side opening of the compression chamber 29.

実施例により、以下に送り装置101を詳しく説明し、前記送り装置101は前記動力チャンバ12の前側内壁に回転できるように連結された前後に延びている歯車軸15を含み、前記歯車軸15には方向変更歯車14が固定的に連結され、前記歯車軸15の下端には送りラック13が噛合するように連結され、前記送りラック13の後端には前記原料チャンバ17の下側内壁にスライドできるように連結される長プッシュブロック40が固定的に連結され、前記長プッシュブロック40が前記原料チャンバ17の前側端面から伸び出し、前記方向変更歯車14の上端には前記原料チャンバ17の前側端面にスライドできるように連結されるラック16が噛合するように連結されている。 By way of example, the feed device 101 will be described in detail below. The feed device 101 includes a longitudinally extending gear shaft 15 rotatably connected to a front inner wall of the power chamber 12, Is fixedly connected to a direction changing gear 14, a lower end of the gear shaft 15 is connected to a feed rack 13 so as to mesh, and a rear end of the feed rack 13 slides on a lower inner wall of the raw material chamber 17. A long push block 40 is fixedly connected so that the long push block 40 extends from the front end surface of the raw material chamber 17, and the front end surface of the raw material chamber 17 is provided at the upper end of the direction changing gear 14. The rack 16 that is slidably connected to the rack is meshed with the rack 16.

実施例により、以下に伝送装置102を詳しく説明し、前記伝送装置102は前記動力チャンバ12の内壁に回転できるように連結される左右対称な二本のプーリー軸34を含み、前記プーリー軸34が前後に伸びていおり、且つ前記歯車軸15の右下側に位置しており、前記プーリー軸34にはプーリー35が固定的に連結され、左右両側の前記プーリー35の間にはベルトコンベヤー33が連結され、左側の前記プーリー軸34には前記動力チャンバ12の前側内壁に固定的に連結されるモーター41が伝動できるように連結され、左側の前記プーリー軸34には前記プーリー35と前記モーター41との間に位置した同期プーリー43が固定的に連結され、左側の前記プーリー軸34には前記プーリー35の後側に位置した主プーリー47が固定的に連結され、前記動力チャンバ12の中には前記プーリー軸34の上側に位置した左右対称な二本の連動軸38が回転できるように連結され、前記連動軸38が前後に延びており、且つ前記連動軸38には圧着プーリー37が固定的に連結され、左右両側の前記圧着プーリー37の間にはVベルト36が連結され、左側の前記連動軸38には前記圧着プーリー37の後側に位置した副プーリー48が固定的に連結され、前記副プーリー48と前記主プーリー47との間には平ベルト46が連結され、右側の前記連動軸38には前記圧着プーリー37の後側に位置した副マルチ楔プーリー55が固定的に連結されている。 Hereinafter, the transmission device 102 will be described in detail by way of example. The transmission device 102 includes two symmetrical pulley shafts 34 rotatably connected to an inner wall of the power chamber 12, and the pulley shaft 34 is It extends in the front-rear direction and is located on the lower right side of the gear shaft 15. A pulley 35 is fixedly connected to the pulley shaft 34, and a belt conveyor 33 is provided between the left and right pulleys 35. A motor 41 fixedly connected to the front inner wall of the power chamber 12 is movably connected to the left pulley shaft 34, and the pulley 35 and the motor 41 are connected to the left pulley shaft 34. A synchronous pulley 43 positioned between and is fixedly connected, and a main pulley 47 positioned on the rear side of the pulley 35 is fixedly connected to the pulley shaft 34 on the left side. Is rotatably connected to two bilaterally symmetric interlocking shafts 38 located above the pulley shaft 34, the interlocking shaft 38 extends forward and backward, and a crimping pulley 37 is fixed to the interlocking shaft 38. The V-belt 36 is connected between the left and right pressure-bonding pulleys 37, and the sub-pulley 48 located behind the pressure-bonding pulley 37 is fixedly connected to the left interlocking shaft 38. A flat belt 46 is connected between the sub-pulley 48 and the main pulley 47, and a sub-multi-wedge pulley 55 located on the rear side of the crimping pulley 37 is fixedly connected to the interlocking shaft 38 on the right side. Has been done.

実施例により、以下に切断装置103を詳しく説明し、前記切断装置103は前記動力チャンバ12の下側内壁に回転できるように連結される前後対称な二本の滑車輪軸32を含み、前記滑車輪軸32が上下に伸びており、前記滑車輪軸32の上端には滑車輪31が固定的に連結され、前後両側の前記滑車輪31の間には上下対称な二本の線鋸30が連結され、前側の前記滑車輪軸32には前記滑車輪31の下側に位置した副傘歯車45が固定的に連結され、前記動力チャンバ12の前側内壁には前後に延びている複合軸53が回転できるように連結され、前記複合軸53には前記副傘歯車45と噛合するように連結される主傘歯車44が固定的に連結され、前記複合軸53には前記主傘歯車44の前側に位置した副同期プーリー52が固定的に連結され、前記副同期プーリー52と前記同期プーリー43との間には同期ベルト42が連結されている。 By way of example, the cutting device 103 will be described in detail below, and the cutting device 103 includes two front and rear symmetrical pulley wheel shafts 32 rotatably connected to a lower inner wall of the power chamber 12, 32 extends vertically, a pulley wheel 31 is fixedly connected to the upper end of the pulley wheel shaft 32, and two vertically symmetrical wire saws 30 are connected between the pulley wheels 31 on the front and rear sides. A sub-bevel gear 45 positioned below the pulley wheel 31 is fixedly connected to the pulley wheel shaft 32 on the front side, and a composite shaft 53 extending in the front-rear direction is rotatable on the front inner wall of the power chamber 12. A main bevel gear 44 fixedly connected to the composite shaft 53 so as to mesh with the sub-bevel gear 45. The composite shaft 53 is located in front of the main bevel gear 44. The sub synchronization pulley 52 is fixedly connected, and the synchronization belt 42 is connected between the sub synchronization pulley 52 and the synchronization pulley 43.

有益的には、前記線鋸30が段ボール芯を切断でき、段ボールの耐圧構造を破壊し、段ボールが圧縮されやすくなり、それにより段ボールの圧縮率を高める。 Beneficially, the wire saw 30 can cut the corrugated board core, destroy the pressure resistant structure of the corrugated board, and make the corrugated board more easily compressed, thereby increasing the compression rate of the corrugated board.

実施例により、以下に連動装置104を詳しく説明し、前記連動装置104は前記動力チャンバ12の後側内壁に回転できるように連結される前後に延びている回転盤軸51を含み、前記回転盤軸51にはマルチ楔プーリー50が固定的に連結され、前記マルチ楔プーリー50と前記副マルチ楔プーリー55との間にはマルチ楔ベルト49が連結され、前記回転盤22と前記回転盤軸51とが固定的に連結され、且つ前記マルチ楔プーリー50の前側に位置しており、前記動力チャンバ12の前側内壁には前記回転盤軸51の左側に位置した前後に延びている回転軸19が回転できるように連結され、前記回転軸19には前記連結ロッド23の左端にヒンジにより連結される扇状歯車18が固定的に連結され、前記扇状歯車18と前記ラック16とが互いに噛合するように連結され、前記扇状歯車18には揺動ロッド20がヒンジにより連結され、前記揺動ロッド20と前記扇状歯車18とのヒンジにより連結されるところが前記連結ロッド23と前記扇状歯車18とのヒンジにより連結されるところの上側に位置しており、前記揺動ロッド20の中間部が前記長クランク21とヒンジにより連結されている。 Hereinafter, the interlocking device 104 will be described in detail with reference to an embodiment. The interlocking device 104 includes a front and rear extending rotary disk shaft 51 rotatably connected to a rear inner wall of the power chamber 12, A multi-wedge pulley 50 is fixedly connected to the shaft 51, a multi-wedge belt 49 is connected between the multi-wedge pulley 50 and the sub-multi-wedge pulley 55, and the rotary disk 22 and the rotary disk shaft 51 are connected. Are fixedly connected to each other, and are located on the front side of the multi-wedge pulley 50. On the inner wall of the front side of the power chamber 12, there is a rotating shaft 19 located on the left side of the rotary disc shaft 51 and extending in the front-rear direction. A fan gear 18 fixedly connected to the left end of the connecting rod 23 by a hinge is fixedly connected to the rotating shaft 19 so that the fan gear 18 and the rack 16 mesh with each other. The swing rod 20 is connected to the fan gear 18 by a hinge, and the swing rod 20 and the fan gear 18 are connected by a hinge between the connecting rod 23 and the fan gear 18. It is located on the upper side where it is connected, and the intermediate portion of the swing rod 20 is connected to the long crank 21 by a hinge.

実施例により、以下に圧縮装置105を詳しく説明し、前記圧縮装置105は前記揺動ロッド20とヒンジにより連結される従動ロッド24を含み、前記従動ロッド24の右端にはプッシュロッド25がヒンジにより連結され、前記動力チャンバ12の右側内壁にはスライド台26が固定的に連結され、前記スライド台26の左側端面と前記プッシュロッド25とがスライドできるように連結され、前記プッシュロッド25の下端には段ボールを更に圧縮できる押しブロック27が固定的に連結されている。 Hereinafter, the compression device 105 will be described in detail with reference to an embodiment. The compression device 105 includes a driven rod 24 connected to the swing rod 20 by a hinge, and a push rod 25 is connected to the right end of the driven rod 24 by a hinge. The slide table 26 is fixedly connected to the inner wall of the right side of the power chamber 12, and the left end surface of the slide table 26 and the push rod 25 are slidably connected to each other. Is fixedly connected to a push block 27 which can further compress the cardboard.

下記に図1〜図5に合わせて本発明の高圧縮率を持つ古い段ボール回収設備の使用ステップを詳しく説明する: 1 to 5, the detailed steps of using the high compression rate old cardboard recovery equipment of the present invention will be described below:

初期状態では、短クランク54と連結ロッド23とが平行しており、揺動ロッド20とプッシュロッド25とが上極限位置にあり、ラック16が右極限位置にあり、送りラック13が左極限位置にあり、圧縮待ちの段ボールを原料チャンバ17の中に入れる。 In the initial state, the short crank 54 and the connecting rod 23 are parallel to each other, the swing rod 20 and the push rod 25 are in the upper limit position, the rack 16 is in the right limit position, and the feed rack 13 is in the left limit position. The cardboard awaiting compression is placed in the raw material chamber 17.

作動するとき、モーター41を始動し、モーター41が左側のプーリー軸34によりベルトコンベヤー33とプーリー35とを回転連動させ、同時に左側のプーリー軸34が主プーリー47と、平ベルト46と、副プーリー48により連動軸38と、圧着プーリー37と、Vベルト36を回転連動させ、それによりベルトコンベヤー33と、Vベルト36が段ボールを伝送でき、左側のプーリー軸34がまた同期プーリー43と、同期ベルト42と、副同期プーリー52により複合軸53を回転連動させ、複合軸53が主傘歯車44と副傘歯車45との噛合連結により滑車輪軸32と、滑車輪31と、線鋸30を回転連動させ、それにより線鋸30が切断でき、同時に、右側の連動軸38が副マルチ楔プーリー55と、マルチ楔ベルト49と、マルチ楔プーリー50により回転盤軸51を回転連動させ、回転盤軸51が回転盤22により短クランク54を回転連動させ、短クランク54が連結ロッド23により扇状歯車18と、回転軸19を回転連動させ、扇状歯車18が噛合連結によりラック16をまず左方に移動連動させ、ラック16が方向変更歯車14により送りラック13を右方に移動連動させて圧縮待ちの段ボールをベルトコンベヤー33に送り、ベルトコンベヤー33と、Vベルト36が段ボールを初期圧縮して右側に伝送し、そして段ボールが線鋸30に切断され、段ボール芯が破壊され、ベルトコンベヤー33と、Vベルト36が切断された段ボールを圧縮チャンバ29の中に送り、回転盤22が回転し短クランク54を連動させると同時に長クランク21を回転連動させ、長クランク21が揺動ロッド20をまず下方に回転連動させ、揺動ロッド20が従動ロッド24によりプッシュロッド25を下方に移動連動させて切断された段ボールを更に圧縮し、そして揺動ロッド20が従動ロッド24によりプッシュロッド25を連動させて上方に移動し復帰させ、同時に連結ロッド23が扇状歯車18を連動させてラック16を右方に移動させ、ラック16が方向変更歯車14により送りラック13を連動させて左方に移動し復帰させ、それにより一回の段ボールの圧縮加工過程を完成し、設備全体が全部の段ボールの圧縮加工を完成するまで以上のステップを繰り返し、同時に箱ドア28を開けることにより圧縮完了された段ボールを取り出すことができる。 When operating, the motor 41 is started so that the motor 41 rotationally interlocks the belt conveyor 33 and the pulley 35 with the left pulley shaft 34, and at the same time, the left pulley shaft 34 causes the main pulley 47, the flat belt 46, and the sub pulley. The interlocking shaft 38, the crimping pulley 37, and the V-belt 36 are rotationally interlocked by 48, whereby the belt conveyor 33 and the V-belt 36 can transmit corrugated cardboard, and the left pulley shaft 34 also serves as the synchronous pulley 43 and the synchronous belt. 42 and the sub-synchronous pulley 52, the composite shaft 53 is rotationally interlocked, and the composite shaft 53 is interlockingly connected with the main bevel gear 44 and the sub-bevel gear 45 to rotationally interlock the pulley wheel shaft 32, the pulley wheel 31, and the wire saw 30. As a result, the wire saw 30 can be cut, and at the same time, the right interlocking shaft 38 rotationally interlocks the rotary disc shaft 51 with the sub-multi-wedge pulley 55, the multi-wedge belt 49, and the multi-wedge pulley 50, and the rotary disc shaft 51. Rotatively interlocks the short crank 54 with the turntable 22, the short crank 54 rotatively interlocks the fan gear 18 and the rotary shaft 19 with the connecting rod 23, and the fan gear 18 interlocks to move the rack 16 to the left first. Then, the rack 16 moves the feed rack 13 to the right by the direction changing gear 14 and interlocks the corrugated cardboard awaiting compression to the belt conveyor 33, and the belt conveyor 33 and the V belt 36 initially compress the cardboard and transmit it to the right side. Then, the corrugated board is cut by the wire saw 30, the corrugated board core is broken, and the corrugated board in which the belt conveyor 33 and the V-belt 36 are cut is sent into the compression chamber 29, and the turntable 22 is rotated to move the short crank 54. At the same time as the interlocking operation, the long crank 21 is rotationally interlocked, the long crank 21 first rotationally interlocks the swing rod 20 downward, and the swing rod 20 is disconnected by the follower rod 24 while interlocking the push rod 25 downward. The corrugated board is further compressed, and the swing rod 20 moves upward by the driven rod 24 in conjunction with the push rod 25 to return the same, and at the same time, the connecting rod 23 interlocks with the fan gear 18 to move the rack 16 to the right. , The rack 16 is interlocked with the feed rack 13 by the direction changing gear 14 to move to the left and return, thereby completing a single cardboard compression process, and the entire equipment completes the cardboard compression process. By repeating the above steps and opening the box door 28 at the same time, the compressed cardboard can be taken out.

以上の方式により、当業者が本発明の範囲内において作業モジュールにより各種の変更を行うことができる。 With the above method, those skilled in the art can make various changes by the work module within the scope of the present invention.

Claims (8)

正面視で、回収箱を含み、
前記回収箱の中には動力チャンバが設置され、前記回収箱の中には前記動力チャンバの左側に位置した上方と右方に開口した原料チャンバが設置され、前記原料チャンバが圧縮待ちの古い段ボールを保存でき、前記回収箱の中には前記動力チャンバの右下側に位置した上方と右方に開口した圧縮チャンバが設置され、前記動力チャンバの中には前記原料チャンバの前側に位置した送り装置が設置され、前記送り装置が前記原料チャンバの中から古い段ボールを取り出すことができ、前記動力チャンバの中には前記送り装置の右側に位置した古い段ボールを運輸して初期圧縮できる伝送装置が設置され、前記動力チャンバの中には前記伝送装置の前後両側に位置した対称な切断装置が設置され、前記切断装置が段ボール芯を切断でき、
前記動力チャンバの中には前記伝送装置の上側に位置した連動装置が設置され、前記動力チャンバの中には前記連動装置の右側に位置した圧縮装置が設置され、前記圧縮装置が切断された段ボールを更に圧縮でき、前記連動装置は前記動力チャンバの中に回転できるように連結される回転盤と、前記回転盤に固定的に連結される長クランクと、前記回転盤に固定的に連結され且つ前記長クランクの右側に位置した短クランクと、前記短クランクにヒンジにより連結される連結ロッドにより、また前記回転盤と前記長クランクとの回転を利用し、前記圧縮装置を運動連動させることができ、同時に前記回転盤が前記短クランクと前記連結ロッドにより前記送り装置を運動連動させることができることを特徴とする高圧縮率を持つ古い段ボール回収設備。 In front view, including the collection box,
A power chamber is installed in the recovery box, a raw material chamber located on the left side of the power chamber and opened to the right side is installed in the recovery box, and the raw material chamber is an old cardboard awaiting compression. The recovery chamber is provided with a compression chamber located on the lower right side of the power chamber and opened to the upper and right sides, and in the power chamber, a feed chamber located on the front side of the raw material chamber is installed. A device is installed, the feeding device can take out old cardboard from the raw material chamber, and the power chamber has a transmission device that can transport the old cardboard located on the right side of the feeding device and perform initial compression. Installed, symmetrical cutting devices located on both front and rear sides of the transmission device are installed in the power chamber, and the cutting device can cut the corrugated cardboard core,
An interlock device located above the transmission device is installed in the power chamber, a compression device located on the right side of the interlock device is installed in the power chamber, and the corrugated cardboard is cut. And the interlocking device is rotatably connected to the power chamber, a long crank fixedly connected to the turntable, and fixedly connected to the turntable. The compression device can be interlocked by using a short crank positioned on the right side of the long crank and a connecting rod connected to the short crank by a hinge, and by utilizing the rotation of the turntable and the long crank. At the same time, the old corrugated cardboard recovery equipment having a high compression rate is characterized in that the turntable can move the feeding device in motion by the short crank and the connecting rod. 前記圧縮チャンバの右側開口には箱ドアが回転できるように連結されていることを特徴とする請求項1に記載の高圧縮率を持つ古い段ボール回収設備。 The old cardboard collection facility with high compression rate according to claim 1, wherein a box door is rotatably connected to the right side opening of the compression chamber. 前記送り装置は前記動力チャンバの前側内壁に回転できるように連結された前後に延びている歯車軸を含み、前記歯車軸には方向変更歯車が固定的に連結され、前記歯車軸の下端には送りラックが噛合するように連結され、前記送りラックの後端には前記原料チャンバの下側内壁にスライドできるように連結される長プッシュブロックが固定的に連結され、前記長プッシュブロックが前記原料チャンバの前側端面から伸び出し、前記方向変更歯車の上端には前記原料チャンバの前側端面にスライドできるように連結されるラックが噛合するように連結されていることを特徴とする請求項1に記載の高圧縮率を持つ古い段ボール回収設備。 The feeding device includes a front and rear extending gear shaft rotatably connected to a front inner wall of the power chamber, a direction changing gear is fixedly connected to the gear shaft, and a lower end of the gear shaft is attached to the lower end of the gear shaft. A feed rack is connected so as to mesh with each other, and a long push block that is slidably connected to a lower inner wall of the raw material chamber is fixedly connected to a rear end of the feed rack, and the long push block is the raw material. The rack extending from the front end face of the chamber and connected to the upper end of the direction changing gear so as to mesh with a rack slidably connected to the front end face of the raw material chamber. Old cardboard recovery equipment with high compression rate. 前記伝送装置は前記動力チャンバの内壁に回転できるように連結される左右対称な二本のプーリー軸を含み、前記プーリー軸が前後に伸びており、且つ前記歯車軸の右下側に位置しており、前記プーリー軸にはプーリーが固定的に連結され、左右両側の前記プーリーの間にはベルトコンベヤーが連結され、左側の前記プーリー軸には前記動力チャンバの前側内壁に固定的に連結されるモーターが伝動できるように連結され、左側の前記プーリー軸には前記プーリーと前記モーターとの間に位置した同期プーリーが固定的に連結され、左側の前記プーリー軸には前記プーリーの後側に位置した主プーリーが固定的に連結され、前記動力チャンバの中には前記プーリー軸の上側に位置した左右対称な二本の連動軸が回転できるように連結され、前記連動軸が前後に延びており、且つ前記連動軸には圧着プーリーが固定的に連結され、左右両側の前記圧着プーリーの間にはVベルトが連結され、左側の前記連動軸には前記圧着プーリーの後側に位置した副プーリーが固定的に連結され、前記副プーリーと前記主プーリーとの間には平ベルトが連結され、右側の前記連動軸には前記圧着プーリーの後側に位置した副マルチ楔プーリーが固定的に連結されていることを特徴とする請求項3に記載の高圧縮率を持つ古い段ボール回収設備。 The transmission device includes two symmetric pulley shafts that are rotatably connected to the inner wall of the power chamber, the pulley shafts extend in the front-rear direction, and are located on the lower right side of the gear shaft. A pulley is fixedly connected to the pulley shaft, a belt conveyor is connected between the left and right pulleys, and a left pulley shaft is fixedly connected to a front inner wall of the power chamber. A motor is drivingly connected to the left pulley shaft, and a synchronous pulley located between the pulley and the motor is fixedly connected to the left pulley shaft, and the left pulley shaft is located behind the pulley. The main pulley is fixedly connected, and two symmetrical interlocking shafts located above the pulley shaft are rotatably connected in the power chamber, and the interlocking shaft extends forward and backward. A crimping pulley is fixedly connected to the interlocking shaft, a V belt is connected between the left and right crimping pulleys, and a sub-pulley located behind the crimping pulley is connected to the left interlocking shaft. Is fixedly connected, a flat belt is connected between the sub pulley and the main pulley, and a sub multi-wedge pulley located behind the crimping pulley is fixedly connected to the interlocking shaft on the right side. The old cardboard recovery equipment having a high compression rate according to claim 3, which is characterized in that 前記切断装置は前記動力チャンバの下側内壁に回転できるように連結される前後対称な二本の滑車輪軸を含み、前記滑車輪軸が上下に伸びており、前記滑車輪軸の上端には滑車輪が固定的に連結され、前後両側の前記滑車輪の間には上下対称な二本の線鋸が連結され、前側の前記滑車輪軸には前記滑車輪の下側に位置した副傘歯車が固定的に連結され、前記動力チャンバの前側内壁には前後に延びている複合軸が回転できるように連結され、前記複合軸には前記副傘歯車と噛合するように連結される主傘歯車が固定的に連結され、前記複合軸には前記主傘歯車の前側に位置した副同期プーリーが固定的に連結され、前記副同期プーリーと前記同期プーリーとの間には同期ベルトが連結されていることを特徴とする請求項4に記載の高圧縮率を持つ古い段ボール回収設備。 The cutting device includes two longitudinally symmetrical sheave shafts that are rotatably connected to the lower inner wall of the power chamber, the sheave shafts extending vertically, and the sheaves at the upper ends of the sheave shafts. It is fixedly connected, and two vertically symmetrical wire saws are connected between the front and rear sheave wheels, and the auxiliary bevel gear positioned below the sheave wheel is fixed to the front sheave wheel shaft. And a main bevel gear fixedly connected to the front inner wall of the power chamber so as to be rotatable, and a main bevel gear connected to the sub-bevel gear so as to mesh with the auxiliary bevel gear. A sub-synchronous pulley located on the front side of the main bevel gear is fixedly connected to the composite shaft, and a synchronous belt is connected between the sub-synchronous pulley and the synchronous pulley. The old cardboard collection facility having a high compression rate according to claim 4 . 前記線鋸が段ボール芯を切断でき、段ボールの耐圧構造を破壊し、段ボールが圧縮されやすくなることを特徴とする請求項5に記載の高圧縮率を持つ古い段ボール回収設備。 The old corrugated board recovery equipment with a high compression rate according to claim 5, wherein the wire saw can cut the corrugated board core, destroy the pressure resistant structure of the corrugated board, and easily compress the corrugated board. 前記連動装置は前記動力チャンバの後側内壁に回転できるように連結される前後に延びている回転盤軸を含み、前記回転盤軸にはマルチ楔プーリーが固定的に連結され、前記マルチ楔プーリーと前記副マルチ楔プーリーとの間にはマルチ楔ベルトが連結され、前記回転盤と前記回転盤軸とが固定的に連結され、且つ前記マルチ楔プーリーの前側に位置しており、前記動力チャンバの前側内壁には前記回転盤軸の左側に位置した前後に延びている回転軸が回転できるように連結され、前記回転軸には前記連結ロッドの左端にヒンジにより連結される扇状歯車が固定的に連結され、前記扇状歯車と前記ラックとが互いに噛合するように連結され、前記扇状歯車には揺動ロッドがヒンジにより連結され、前記揺動ロッドと前記扇状歯車とのヒンジにより連結されるところが前記連結ロッドと前記扇状歯車とのヒンジにより連結されるところの上側に位置しており、前記揺動ロッドの中間部が前記長クランクとヒンジにより連結されていることを特徴とする請求項4に記載の高圧縮率を持つ古い段ボール回収設備。 The interlocking device includes a front and rear extending rotary disc shaft rotatably connected to a rear inner wall of the power chamber, and a multi-wedge pulley is fixedly coupled to the rotary disc shaft. A multi-wedge belt is connected between the sub-multi-wedge pulley and the sub-wedge pulley, the rotary disc and the rotary disc shaft are fixedly coupled to each other, and the multi-wedge pulley is positioned in front of the multi-wedge pulley. Is connected to the front inner wall of the rotary disc shaft on the left side of the rotary disc shaft so as to extend in the front-rear direction, and a fan-shaped gear fixed to the left end of the connecting rod by a hinge is fixed to the rotary shaft. The fan-shaped gear and the rack are connected so as to mesh with each other, and a swing rod is connected to the fan-shaped gear by a hinge, and the swing rod and the fan-shaped gear are connected by a hinge. located above the place to be hingedly connected with the fan-shaped gear and the connecting rod, to claim 4, the middle portion of the swing rod is characterized in that it is connected by the long crank hinge An old cardboard recovery facility with the high compression ratio stated. 前記圧縮装置は前記揺動ロッドとヒンジにより連結される従動ロッドを含み、前記従動ロッドの右端にはプッシュロッドがヒンジにより連結され、前記動力チャンバの右側内壁にはスライド台が固定的に連結され、前記スライド台の左側端面と前記プッシュロッドとがスライドできるように連結され、前記プッシュロッドの下端には段ボールを更に圧縮できる押しブロックが固定的に連結されていることを特徴とする請求項7に記載の高圧縮率を持つ古い段ボール回収設備。 The compression device includes a driven rod connected to the swing rod by a hinge, a push rod is connected to the right end of the driven rod by a hinge, and a slide table is fixedly connected to the right inner wall of the power chamber. the sliding base on the left end face and said push rod is connected to allow sliding, claim the push blocks that can further compress the cardboard on the lower end of the push rod, characterized in that the fixedly connected 7 An old cardboard recovery facility with a high compression ratio as described in.
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Cited By (3)

* Cited by examiner, † Cited by third party
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CN113089353A (en) * 2021-03-05 2021-07-09 钱琴 Paper-making industry is with having processing apparatus that can paper suspension recovery effect
CN113858290A (en) * 2021-09-24 2021-12-31 齐军 Waste office supply recycling device and method
CN114032700A (en) * 2021-11-29 2022-02-11 上海辉劭机械设备有限公司 Recovery processing device for corrugated case

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CN110774337B (en) * 2019-11-18 2020-12-11 嘉兴市创美电器有限公司 Old and useless corrugated paper recovery unit
CN110814488B (en) * 2019-11-19 2020-10-30 湖南旺坤管业有限公司 Fixed plasma cutting device of stainless steel
CN115213966A (en) * 2022-08-26 2022-10-21 山东云豪卫生用品股份有限公司 Slitting device for pull-up diaper production

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113089353A (en) * 2021-03-05 2021-07-09 钱琴 Paper-making industry is with having processing apparatus that can paper suspension recovery effect
CN113858290A (en) * 2021-09-24 2021-12-31 齐军 Waste office supply recycling device and method
CN113858290B (en) * 2021-09-24 2023-06-30 齐军 Waste office supplies recycling device and method
CN114032700A (en) * 2021-11-29 2022-02-11 上海辉劭机械设备有限公司 Recovery processing device for corrugated case

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