JP2019181424A - Special delivery classification system - Google Patents
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- JP2019181424A JP2019181424A JP2018087893A JP2018087893A JP2019181424A JP 2019181424 A JP2019181424 A JP 2019181424A JP 2018087893 A JP2018087893 A JP 2018087893A JP 2018087893 A JP2018087893 A JP 2018087893A JP 2019181424 A JP2019181424 A JP 2019181424A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C3/00—Sorting according to destination
- B07C3/10—Apparatus characterised by the means used for detection ofthe destination
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Abstract
Description
本発明は物流分類分野に関し、具体的には安全の速達分類システムに関する。 The present invention relates to the field of logistics classification, and more particularly to a safety express delivery classification system.
物流輸送に常にいくつかの速達をスキャンし分類する必要があり、伝統的な速達分類システムの設定モードが簡単で、大型の速達を固定できなく、スキャンに深刻な影響があり、大きい弊害が存在し、改善する必要がある。 There is always a need to scan and classify several expresses for logistics transportation, the simple express delivery system setting mode is simple, large express cannot be fixed, the scan is seriously affected, and there is a big negative effect Need to be improved.
本発明は解決する必要な技術問題に対して安全の速達分類システムを提供し、それは上記の現在の技術問題を解決できる。 The present invention provides a secure express classification system for the necessary technical problems to be solved, which can solve the above current technical problems.
上記の目的を実現するため、本発明は以下の技術方案を採用する。安全の速達分類システムは台体を含み、前記台体の四つの角に同時に角ブロックが設置され、前記角ブロックの底部に回転輪が設置され、前記台体の内部に転向筐体が設置され、前記転向筐体の上端壁の左右両端に対応するように滑り溝が設置され、前記滑り溝が転向筐体と取付台と連結し、前記取付台と台体が滑り溝を通じて摺動可能なように係合し接続し、前記転向筐体の前端壁に安置穴が設置され、前記安置穴の前端壁に第一モーターが固定的に接続され、前記安置穴の前端壁に透過穴が設置され、前記透過穴が安置穴と転向筐体をつなげ、前記第一モーターに前端が透過穴を通り抜ける転向軸Aが動力が伝達可能なように接続され、前記転向軸Aの前端に固定的に接続する円錐形プーリーAが設置され、前記円錐形プーリーAにそれと係合し接続する円錐形プーリーBが設置され、前記円錐形プーリーBの中心にそれと固定し接続する転向軸Aが設置され、前記転向軸Aが転向筐体の左右両端壁と回転可能なように接続し、前記転向軸Aの一番左端に固定的に接続する第一伝達輪が設置され、前記第一伝達輪の前端にベルトを通じて駆動する第二伝達輪が設置され、前記第二伝達輪の中心にそれと固定し接続する転向軸Bが設置され、前記転向軸Aと転向軸Bに左右に対応するようにギアAが設置され、前記取付台の下端面に左右両端が対応するように二つのギア溝が設置され、前記ギアAがギア溝と転動し接続し、前記転向軸Aと転向軸Bに左右に対応するようにベアリングが設置され、前記台体の上端面の左右両端に対応するように支持アームが設置され、前記支持アームの上端面に二つのそれと固定的に接続する支台部が設置され、前記支台部に油圧溝が設置され、左側の油圧溝の上端面に油圧穴Aが設置され、右側の油圧溝の上端面に油圧穴Bが設置され、前記油圧穴Aと油圧穴Bに制御バルブが設置され、前記油圧穴Aと油圧穴Bにパイプが設置されそれらを連結し、前記パイプの中心に油圧ポンプが設置され、左右両側の油圧溝に押しレバーが設置され、前記押しレバーの中心にスキャン装置が固定的に接続し、前記スキャン装置がハウジングを含み、前記ハウジングに容筐体が設置され、前記容筐体の上端面に第二モーターが設置され、前記第二モーターの下端に転向軸Bが設置され、前記転向軸Bの下端にそれと固定し接続する円錐形プーリーCが設置され、前記円錐形プーリーCの下にそれと係合し接続する円錐形プーリーDが設置され、前記円錐形プーリーDの中心にそれと固定的に接続する転向軸Cが設置され、前記転向軸Cが容筐体の左右端壁と回転可能なように接続し、前記転向軸Cに前記円錐形プーリーDの左側に位置するギアBが固定的に取り付けられ、前記ギアBの下にそれと係合し接続するギアCが設置され、前記ギアCの中心にそれと固定的に接続する転向軸Dが設置され、前記転向軸Dが容筐体の左右端壁と回転可能なように接続し、前記転向軸Dに前記ギアCの右側に位置するカムが固定的に取り付けられ、前記カムの下端面に滑りレバーが設置され、前記滑りレバーの上端に左右に対応するように案内滑りブロックが設置され、前記容筐体の壁が案内滑りブロックと対応する位置に案内滑り溝が設置され、前記案内滑りブロックが案内滑り溝に位置し上下に滑ることができ、前記案内滑り溝の上端壁に座ぐり筐体が設置され、前記座ぐり筐体の上端壁に弾片が固定的に接続され、前記弾片の下端が座ぐり筐体を通り抜けて案内滑りブロックと固定的に接続し、前記滑りレバーの下端が容筐体を通り抜けてスキャン端が固定的に接続され、前記取付台の上端面に均等に分布する多くの挟固構造が設置され、前記挟固構造が前記取付台に設置される転向筐体を含み、前記転向筐体に回転ボルトと固定的に接続するギアDが設置され、前記ギアDの右側にそれと係合し接続するギアEが設置され、前記ギアEの中心にそれと固定的に接続するセット殻が設置され、前記セット殻の内部にねじ穴が設置され、前記ねじ穴にねじレバーが係合し接続され、前記ねじレバーの下端面に穴溝が設置され、前記穴溝に前記ねじレバーの下端面と固定的に接続するギア柱が摺動可能なように係合され、その作用はねじレバーが上下に運動することを保証し、ねじレバーが回転し運動することを防ぎ、前記ねじレバーが取付台と接続する所に固定的に接続する固定輪が設置され、前記第二モーターの外側に積載装置が設置され、前記積載装置が衝撃吸収厚板と冷却アルミ片を含む。 In order to achieve the above object, the present invention adopts the following technical scheme. The safe express delivery classification system includes a base, a corner block is installed at the same time at four corners of the base, a rotating wheel is installed at the bottom of the corner block, and a turning case is installed inside the base. The sliding groove is installed to correspond to the left and right ends of the upper end wall of the turning case, the sliding groove is connected to the turning case and the mounting base, and the mounting base and the base body can slide through the sliding groove. The mounting hole is installed in the front end wall of the turning housing, the first motor is fixedly connected to the front end wall of the mounting hole, and the transmission hole is installed in the front end wall of the mounting hole. The transmission hole connects the mounting hole and the turning housing, the turning shaft A whose front end passes through the transmission hole is connected to the first motor so that power can be transmitted, and is fixed to the front end of the turning shaft A. Connecting conical pulley A is installed and engaged with the conical pulley A A conical pulley B is installed, and a turning shaft A is fixed and connected to the center of the conical pulley B. The turning shaft A is connected to the left and right end walls of the turning housing so as to be rotatable. A first transmission wheel that is fixedly connected to the leftmost end of the turning shaft A, a second transmission wheel that is driven through a belt is installed at a front end of the first transmission wheel, and the second transmission wheel A turning shaft B that is fixed and connected to the center is installed at the center, a gear A is installed so as to correspond to the left and right of the turning shaft A and the turning shaft B, and two left and right ends correspond to the lower end surface of the mounting base. Two gear grooves are installed, the gear A rolls and connects with the gear grooves, bearings are installed so as to correspond to the right and left of the turning shaft A and the turning shaft B, and the left and right ends of the upper end surface of the base body. A support arm is installed so as to correspond to the two upper arms of the support arm. Is installed in a fixed manner, a hydraulic groove is installed in the abutment, a hydraulic hole A is installed in the upper end surface of the left hydraulic groove, and a hydraulic hole B is installed in the upper end surface of the right hydraulic groove. The control valve is installed in the hydraulic hole A and the hydraulic hole B, the pipe is installed in the hydraulic hole A and the hydraulic hole B, they are connected, and the hydraulic pump is installed in the center of the pipe. A push lever is installed in the hydraulic groove, a scanning device is fixedly connected to the center of the push lever, the scanning device includes a housing, a housing is installed in the housing, and an upper end surface of the housing A second motor is installed, a turning shaft B is installed at the lower end of the second motor, and a conical pulley C is fixedly connected to the lower end of the turning shaft B, and below the conical pulley C. A conical pulley D is installed to engage and connect with it. A turning shaft C fixedly connected to the center of the conical pulley D is installed, the turning shaft C is rotatably connected to the left and right end walls of the housing, and the turning shaft C is connected to the turning shaft C. A gear B located on the left side of the conical pulley D is fixedly attached, and a gear C that engages and connects with the gear B is installed under the gear B, and a turning shaft that is fixedly connected to the center of the gear C D is installed, the turning axis D is rotatably connected to the left and right end walls of the housing, and a cam located on the right side of the gear C is fixedly attached to the turning axis D, A slide lever is installed at the lower end surface, a guide slide block is installed at the upper end of the slide lever so as to correspond to the left and right, and a guide slide groove is installed at a position where the wall of the housing corresponds to the guide slide block, The guide slide block is positioned in the guide slide groove and slides up and down. A counterbore case is installed on the upper end wall of the guide sliding groove, a bullet piece is fixedly connected to the upper end wall of the counterbore case, and the lower end of the bullet piece passes through the counterbore case and guides it. Fixedly connected to the sliding block, the lower end of the sliding lever passes through the housing and the scanning end is fixedly connected, and many clamping structures distributed evenly on the upper end surface of the mounting base are installed, The clamping structure includes a turning housing installed on the mounting base, and a gear D that is fixedly connected to a rotating bolt is installed in the turning housing, and a gear that engages and connects to the right side of the gear D E is installed, a set shell fixedly connected thereto is installed at the center of the gear E, a screw hole is installed inside the set shell, a screw lever is engaged and connected to the screw hole, and the screw A hole groove is installed in the lower end surface of the lever, and the screw lever is in the hole groove. A gear column fixedly connected to the lower end surface of the screw is slidably engaged, and its action ensures that the screw lever moves up and down, prevents the screw lever from rotating and moving, and the screw A fixed wheel for fixed connection is installed where the lever connects to the mounting base, a loading device is installed outside the second motor, and the loading device includes a shock absorbing slab and a cooling aluminum piece.
好ましい技術方案として前記弾片の弾力が滑りレバーとスキャン端の重量の和よりはるかに大きい。 As a preferred technical solution, the elasticity of the bullet is much larger than the sum of the weight of the sliding lever and the scanning end.
好ましい技術方案として前記回転ボルトの上端に挟固板が嵌着される。 As a preferred technical solution, a clamping plate is fitted to the upper end of the rotating bolt.
好ましい技術方案として前記衝撃吸収厚板が前記第二モーターの上端と下端に設置され前記第二モーターと固定的に接続し、前記冷却アルミ片が前記第二モーターの前端と後端に設置され前記第二モーターの殻と固定的に接続し、前記冷却アルミ片の上端と下端が前記衝撃吸収厚板と固定的に接続し、前記第二モーターの前端と後端にそれぞれ多くの前記冷却アルミ片が設置される。 As a preferred technical solution, the shock absorbing planks are installed at the upper and lower ends of the second motor and fixedly connected to the second motor, and the cooling aluminum pieces are installed at the front and rear ends of the second motor. The cooling motor piece is fixedly connected to the shell of the second motor, the upper and lower ends of the cooling aluminum piece are fixedly connected to the shock-absorbing thick plate, and the cooling motor piece is provided at the front and rear ends of the second motor. Is installed.
既存の技術と比べ、本発明の有益な効果は、本発明が作業する時に、速達を取付台の上に置いて、支持点がある所の挟固構造を選択し、回転ボルトを回転し、回転ボルトが回転しギアDとギアEと連動して回転し、これによりねじレバーと連動して下に移動し、挟固板と固定輪が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。スキャンする時に、第一モーターが作業し、転向軸Aが回転し、円錐形プーリーAと円錐形プーリーBが係合し伝動し、転向軸Aと連動して回転し、これにより転向軸Aの二つの従動支持ギアと連動して回転し、ベルトを通じて転向軸Aが回転し第二伝達輪と第一伝達輪と連動して同じ方向に回転し、これにより転向軸Bと連動して回転し、転向軸Bが回転し転向軸Bの二つのギアAと連動して回転し、四つのギアAが同じ方向に回転し、取付台と連動して前後に移動し、油圧ポンプの作用で、制御バルブが開く状態になり、油圧溝の油圧の大きさの変化を実現し、押しレバーのスキャン装置の左右移動と連動して、第二モーターが動作し、円錐形プーリーCと円錐形プーリーDが係合し伝動し、転向軸Cと連動して回転し、これによりギアBと連動して回転し、ギアBとギアCが噛み合い、ギアCが回転し、転向軸Dと連動して回転し、転向軸Dのカムと連動して回転し、カムと接触する滑りレバーがカムの回転と弾片の弾性作用のもとで、案内滑りブロックを通じて、滑りレバーの昇降を実現し、滑りレバーと固定的に接続するスキャン端が昇降する。 Compared with the existing technology, the beneficial effect of the present invention is that when the present invention is operated, the express delivery is placed on the mounting base, the clamping structure where the support point is located is selected, the rotating bolt is rotated, The rotating bolt rotates and rotates in conjunction with the gear D and gear E. This moves down in conjunction with the screw lever. The clamping plate and the fixed ring form a clamping structure, and the express delivery is firmly fixed. Shake when the is scanned to prevent the scan from failing. When scanning, the first motor works, the turning shaft A rotates, the conical pulley A and the conical pulley B engage and transmit, and rotates in conjunction with the turning shaft A, thereby rotating the turning shaft A. It rotates in conjunction with the two driven support gears, the turning shaft A rotates through the belt, rotates in the same direction in conjunction with the second transmission wheel and the first transmission wheel, and thereby rotates in conjunction with the turning shaft B. The turning shaft B rotates and rotates in conjunction with the two gears A of the turning shaft B, the four gears A rotate in the same direction, move back and forth in conjunction with the mounting base, and by the action of the hydraulic pump, The control valve is in an open state, realizing a change in the hydraulic pressure in the hydraulic groove, and in conjunction with the left / right movement of the push lever scanning device, the second motor operates, and the conical pulley C and conical pulley D Engages and transmits, rotates in conjunction with the turning axis C, thereby rotating in conjunction with gear B, The gear B and gear C mesh, the gear C rotates, rotates in conjunction with the turning shaft D, rotates in conjunction with the cam on the turning shaft D, and the sliding lever that contacts the cam rotates the cam and the bullet Under the elastic action, the sliding lever is raised and lowered through the guide sliding block, and the scanning end fixedly connected to the sliding lever is raised and lowered.
既存の技術と比べ、本発明の有益な効果は、本発明が作業する時に、速達を取付台の上に置いて、支持点がある所の挟固構造を選択し、回転ボルトを回転し、回転ボルトが回転しギアDとギアEと連動して回転し、これによりねじレバーと連動して下に移動し、挟固板と固定輪が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。スキャンする時に、第一モーターが作業し、転向軸Aが回転し、円錐形プーリーAと円錐形プーリーBが係合し伝動し、転向軸Aと連動して回転し、これにより転向軸Aの二つの従動支持ギアと連動して回転し、ベルトを通じて転向軸Aが回転し第二伝達輪と第一伝達輪と連動して同じ方向に回転し、これにより転向軸Bと連動して回転し、転向軸Bが回転し転向軸Bの二つのギアAと連動して回転し、四つのギアAが同じ方向に回転し、取付台と連動して前後に移動し、油圧ポンプの作用で、制御バルブが開く状態になり、油圧溝の油圧の大きさの変化を実現し、押しレバーのスキャン装置の左右移動と連動して、第二モーターが動作し、円錐形プーリーCと円錐形プーリーDが係合し伝動し、転向軸Cと連動して回転し、これによりギアBと連動して回転し、ギアBとギアCが噛み合い、ギアCが回転し、転向軸Dと連動して回転し、転向軸Dのカムと連動して回転し、カムと接触する滑りレバーがカムの回転と弾片の弾性作用のもとで、案内滑りブロックを通じて、滑りレバーの昇降を実現し、滑りレバーと固定的に接続するスキャン端が昇降する。 Compared with the existing technology, the beneficial effect of the present invention is that when the present invention is operated, the express delivery is placed on the mounting base, the clamping structure where the support point is located is selected, the rotating bolt is rotated, The rotating bolt rotates and rotates in conjunction with the gear D and gear E. This moves down in conjunction with the screw lever. The clamping plate and the fixed ring form a clamping structure, and the express delivery is firmly fixed. Shake when the is scanned to prevent the scan from failing. When scanning, the first motor works, the turning shaft A rotates, the conical pulley A and the conical pulley B engage and transmit, and rotates in conjunction with the turning shaft A, thereby rotating the turning shaft A. It rotates in conjunction with the two driven support gears, the turning shaft A rotates through the belt, rotates in the same direction in conjunction with the second transmission wheel and the first transmission wheel, and thereby rotates in conjunction with the turning shaft B. The turning shaft B rotates and rotates in conjunction with the two gears A of the turning shaft B, the four gears A rotate in the same direction, move back and forth in conjunction with the mounting base, and by the action of the hydraulic pump, The control valve is in an open state, realizing a change in the hydraulic pressure in the hydraulic groove, and in conjunction with the left / right movement of the push lever scanning device, the second motor operates, and the conical pulley C and conical pulley D Engages and transmits, rotates in conjunction with the turning axis C, thereby rotating in conjunction with gear B, The gear B and gear C mesh, the gear C rotates, rotates in conjunction with the turning shaft D, rotates in conjunction with the cam on the turning shaft D, and the sliding lever that contacts the cam rotates the cam and the bullet Under the elastic action, the sliding lever is raised and lowered through the guide sliding block, and the scanning end fixedly connected to the sliding lever is raised and lowered.
下記では本発明に係る実施例の図面を交え、本発明に係る実施例の技術方案に対し、はっきりとした完全な説明を行い、ひと目で分かることは、説明する実施例はただ本発明の実施例の一部であり、全部の実施例ではないということである。本発明の実施例に基づき、本分野の当業者は創造的な労働を払わないことを前提に得た全部のその他の実施例は本発明の保護範囲にある。 In the following, with reference to the drawings of the embodiments according to the present invention, a clear and complete explanation is given to the technical solutions of the embodiments according to the present invention, and it can be understood at a glance that the described embodiments are merely implementations of the present invention. It is part of the example, not all examples. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that those skilled in the art do not pay creative labor are within the protection scope of the present invention.
図1〜5を参照し、本発明に係る実施例の安全の速達分類システムは台体1を含み、前記台体1の四つの角に同時に角ブロック101が設置され、前記角ブロック101の底部に回転輪102が設置され、前記台体1の内部に転向筐体2が設置され、前記転向筐体2の上端壁の左右両端に対応するように滑り溝3が設置され、前記滑り溝3が転向筐体2と取付台4と連結し、前記取付台4と台体1が滑り溝3を通じて摺動可能なように係合し接続し、前記転向筐体2の前端壁に安置穴5が設置され、前記安置穴5の前端壁に第一モーター6が固定的に接続され、前記安置穴5の前端壁に透過穴7が設置され、前記透過穴7が安置穴5と転向筐体2をつなげ、前記第一モーター6に前端が透過穴7を通り抜ける転向軸A8が動力が伝達可能なように接続され、前記転向軸A8の前端に固定的に接続する円錐形プーリーA9が設置され、前記円錐形プーリーA9にそれと係合し接続する円錐形プーリーB10が設置され、前記円錐形プーリーB10の中心にそれと固定し接続する転向軸A11が設置され、前記転向軸A11が転向筐体の左右両端壁と回転可能なように接続し、前記転向軸A11の一番左端に固定的に接続する第一伝達輪12が設置され、前記第一伝達輪12の前端にベルトを通じて駆動する第二伝達輪13が設置され、前記第二伝達輪13の中心にそれと固定し接続する転向軸B14が設置され、前記転向軸A11と転向軸B14に左右に対応するようにギアA15が設置され、前記取付台4の下端面に左右両端が対応するように二つのギア溝16が設置され、前記ギアA15がギア溝16と転動し接続し、前記転向軸A11と転向軸B14に左右に対応するようにベアリング17が設置され、前記台体1の上端面の左右両端に対応するように支持アーム18が設置され、前記支持アーム18の上端面に二つのそれと固定的に接続する支台部19が設置され、前記支台部19に油圧溝20が設置され、左側の油圧溝20の上端面に油圧穴A21が設置され、右側の油圧溝20の上端面に油圧穴B22が設置され、前記油圧穴A21と油圧穴B22に制御バルブ23が設置され、前記油圧穴A21と油圧穴B22にパイプ24が設置されそれらを連結し、前記パイプ24の中心に油圧ポンプ25が設置され、左右両側の油圧溝20に押しレバー26が設置され、前記押しレバー26の中心にスキャン装置27が固定的に接続し、前記スキャン装置27がハウジング28を含み、前記ハウジング28に容筐体29が設置され、前記容筐体29の上端面に第二モーター30が設置され、前記第二モーター30の下端に転向軸B31が設置され、前記転向軸B31の下端にそれと固定し接続する円錐形プーリーC32が設置され、前記円錐形プーリーC32の下にそれと係合し接続する円錐形プーリーD33が設置され、前記円錐形プーリーD33の中心にそれと固定的に接続する転向軸C34が設置され、前記転向軸C34が容筐体29の左右端壁と回転可能なように接続し、前記転向軸C34に前記円錐形プーリーD33の左側に位置するギアB35が固定的に取り付けられ、前記ギアB35の下にそれと係合し接続するギアC36が設置され、前記ギアC36の中心にそれと固定的に接続する転向軸D37が設置され、前記転向軸D37が容筐体29の左右端壁と回転可能なように接続し、前記転向軸D37に前記ギアC36の右側に位置するカム38が固定的に取り付けられ、前記カム38の下端面に滑りレバー39が設置され、前記滑りレバー39の上端に左右に対応するように案内滑りブロック40が設置され、前記容筐体29の壁が案内滑りブロック40と対応する位置に案内滑り溝41が設置され、前記案内滑りブロック40が案内滑り溝41に位置し上下に滑ることができ、前記案内滑り溝41の上端壁に座ぐり筐体42が設置され、前記座ぐり筐体42の上端壁に弾片43が固定的に接続され、前記弾片43の下端が座ぐり筐体42を通り抜けて案内滑りブロック40と固定的に接続し、前記滑りレバー39の下端が容筐体29を通り抜けてスキャン端44が固定的に接続され、前記取付台4の上端面に均等に分布する多くの挟固構造45が設置され、前記挟固構造45が前記取付台4に設置される転向筐体47を含み、前記転向筐体47に回転ボルト46と固定的に接続するギアD48が設置され、前記ギアD48の右側にそれと係合し接続するギアE49が設置され、前記ギアE49の中心にそれと固定的に接続するセット殻56が設置され、前記セット殻56の内部にねじ穴50が設置され、前記ねじ穴50にねじレバー51が係合し接続され、前記ねじレバー51の下端面に穴溝52が設置され、前記穴溝52に前記ねじレバー51の下端面と固定的に接続するギア柱53が摺動可能なように係合され、その作用はねじレバーが上下に運動することを保証し、ねじレバーが回転し運動することを防ぎ、前記ねじレバー51が取付台4と接続する所に固定的に接続する固定輪54が設置され、前記第二モーター30の外側に積載装置が設置され、前記積載装置が衝撃吸収厚板301と冷却アルミ片302を含む。 Referring to FIGS. 1 to 5, the safety express classification system according to the embodiment of the present invention includes a base body 1, and corner blocks 101 are installed at four corners of the base body 1 at the same time. The rotating wheel 102 is installed, the turning housing 2 is installed inside the base body 1, the sliding grooves 3 are installed so as to correspond to the left and right ends of the upper end wall of the turning housing 2, and the sliding grooves 3 Is connected to the turning housing 2 and the mounting base 4, and the mounting base 4 and the base body 1 are engaged and connected so as to be slidable through the sliding groove 3, and the fixing hole 5 is attached to the front end wall of the turning housing 2. The first motor 6 is fixedly connected to the front end wall of the mounting hole 5, the transmission hole 7 is installed on the front end wall of the mounting hole 5, and the transmission hole 7 is connected to the mounting hole 5 and the turning housing. 2 and a turning shaft A8 whose front end passes through the transmission hole 7 is connected to the first motor 6 so that power can be transmitted, and fixedly connected to the front end of the turning shaft A8. A conical pulley A9 is installed, a conical pulley B10 that engages and connects with the conical pulley A9 is installed, and a turning shaft A11 that is fixed and connected with the conical pulley B10 is installed at the center of the conical pulley B10. A shaft A11 is rotatably connected to the left and right end walls of the turning housing, and a first transmission wheel 12 is installed to be fixedly connected to the leftmost end of the turning shaft A11, and a front end of the first transmission wheel 12 is installed. A second transmission wheel 13 that is driven through a belt is installed, and a turning shaft B14 that is fixed and connected to the center of the second transmission wheel 13 is installed so that the turning shaft A11 and the turning shaft B14 correspond to the left and right. Gear A15 is installed, two gear grooves 16 are installed so that the left and right ends correspond to the lower end surface of the mounting base 4, the gear A15 rolls and connects with the gear groove 16, and turns with the turning shaft A11. Bearings 17 are installed so as to correspond to the left and right of the axis B14, Support arms 18 are installed so as to correspond to the left and right ends of the end face, two support bases 19 are fixedly connected to the upper end face of the support arm 18, and a hydraulic groove 20 is formed in the base part 19. The hydraulic hole A21 is installed on the upper end surface of the left hydraulic groove 20, the hydraulic hole B22 is installed on the upper end surface of the right hydraulic groove 20, and the control valve 23 is installed on the hydraulic hole A21 and the hydraulic hole B22. The pipe 24 is installed in and connected to the hydraulic hole A21 and the hydraulic hole B22, the hydraulic pump 25 is installed in the center of the pipe 24, the push levers 26 are installed in the hydraulic grooves 20 on both the left and right sides, and the push lever A scanning device 27 is fixedly connected to the center of 26, the scanning device 27 includes a housing 28, a housing 29 is installed in the housing 28, and a second motor 30 is provided on the upper end surface of the housing 29. Installed, a turning shaft B31 is installed at the lower end of the second motor 30, and the turning A conical pulley C32 fixed and connected to the lower end of the shaft B31 is installed, and a conical pulley D33 that engages and connects with the conical pulley C33 is installed under the conical pulley C32 and fixed to the center of the conical pulley D33. A turning shaft C34 that is connected to the housing 29, the turning shaft C34 is rotatably connected to the left and right end walls of the housing 29, and the gear B35 located on the left side of the conical pulley D33 is connected to the turning shaft C34. Is fixedly mounted, and a gear C36 that engages and connects with the gear B35 is installed under the gear B35, and a turning shaft D37 that is fixedly connected to the gear C36 is installed at the center of the gear C36. A cam 38 located on the right side of the gear C36 is fixedly attached to the turning axis D37, and a sliding lever 39 is installed on the lower end surface of the cam 38. The upper end of the sliding lever 39 corresponds to the left and right A guide slide block 40 is installed, a guide slide groove 41 is installed at a position where the wall of the housing 29 corresponds to the guide slide block 40, and the guide slide block 40 is positioned in the guide slide groove 41 and slides up and down. A counterbore case 42 is installed on the upper end wall of the guide slide groove 41, a bullet piece 43 is fixedly connected to the upper end wall of the counterbore case 42, and the lower end of the bullet piece 43 is countersunk Passing through the housing 42 and fixedly connected to the guide sliding block 40, the lower end of the sliding lever 39 passes through the housing 29 and the scanning end 44 is fixedly connected, and is evenly connected to the upper end surface of the mounting base 4. A large number of clamping structures 45 distributed in the housing, and the clamping structure 45 includes a turning casing 47 installed on the mounting base 4, and a gear that is fixedly connected to the turning casing 47 with a rotating bolt 46. D48 is installed, and on the right side of the gear D48, a gear E49 that engages and connects with the gear E49 is installed. A set shell 56 that is fixedly connected thereto is installed at the center, a screw hole 50 is installed inside the set shell 56, and a screw lever 51 is engaged with and connected to the screw hole 50. A hole groove 52 is provided on the end surface, and a gear column 53 that is fixedly connected to the lower end surface of the screw lever 51 is slidably engaged with the hole groove 52. The action of the screw lever moves up and down. A fixed ring 54 that is fixedly connected to a place where the screw lever 51 is connected to the mounting base 4 is installed on the outside of the second motor 30 to prevent the screw lever from rotating and moving. A loading device is installed, and the loading device includes a shock absorbing thick plate 301 and a cooling aluminum piece 302.
好ましくは前記弾片43の弾力が滑りレバー39とスキャン端44の重量の和よりはるかに大きく、これにより弾片43が弾力の作用のもとで滑りレバー39とスキャン端44と連動して上昇する。 Preferably, the elasticity of the elastic piece 43 is much larger than the sum of the weights of the sliding lever 39 and the scanning end 44, so that the elastic piece 43 rises in conjunction with the sliding lever 39 and the scanning end 44 under the action of elasticity. To do.
好ましくは前記回転ボルト46の上端に挟固板55が嵌着され、その作用は、挟固板55と固定輪54が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。 Preferably, a clamping plate 55 is fitted on the upper end of the rotating bolt 46, and the action thereof is that the clamping plate 55 and the fixed ring 54 form a clamping structure, firmly fix the express delivery, and shake when the express delivery is scanned. Prevent the scan from failing.
好ましくは前記衝撃吸収厚板301が前記第二モーター30の上端と下端に設置され前記第二モーター30と固定的に接続し、前記冷却アルミ片302が前記第二モーター30の前端と後端に設置され前記第二モーター30の殻と固定的に接続し、前記冷却アルミ片302の上端と下端が前記衝撃吸収厚板301と固定的に接続し、前記第二モーター30の前端と後端にそれぞれ多くの前記冷却アルミ片302が設置され、前記冷却アルミ片302が前記第二モーター30が動作する時に発生する熱量を吸収し発散し、前記衝撃吸収厚板301が前記第二モーター30が動作する時に発生する振動力を減らして、振動力が大きすぎて本装置の正常な運行を影響することを防ぐ。 Preferably, the shock absorbing thick plate 301 is installed at the upper and lower ends of the second motor 30 and fixedly connected to the second motor 30, and the cooling aluminum pieces 302 are provided at the front and rear ends of the second motor 30. It is installed and fixedly connected to the shell of the second motor 30, and the upper and lower ends of the cooling aluminum piece 302 are fixedly connected to the shock absorbing plate 301, and are connected to the front and rear ends of the second motor 30, respectively. Each of the cooling aluminum pieces 302 is installed, and the cooling aluminum piece 302 absorbs and dissipates heat generated when the second motor 30 operates, and the shock absorbing plate 301 operates the second motor 30. The vibration force generated at the time of operation is reduced to prevent the vibration force from being too large and affecting the normal operation of the apparatus.
具体的な使用方式において、本発明が作業する時に、速達を取付台4の上に置いて、支持点がある所の挟固構造44を選択し、回転ボルト45を回転し、回転ボルト45が回転しギアD46とギアE47と連動して回転し、これによりねじレバー49と連動して下に移動し、挟固板53と固定輪52が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。スキャンする時に、第一モーター6が作業し、転向軸A8が回転し、円錐形プーリーA9と円錐形プーリーB10が係合し伝動し、転向軸A11と連動して回転し、これにより転向軸A11の二つの従動支持ギア15と連動して回転し、ベルトを通じて転向軸A11が回転し第二伝達輪13と第一伝達輪12と連動して同じ方向に回転し、これにより転向軸B14と連動して回転し、転向軸B14が回転し転向軸B14の二つのギアA15と連動して回転し、四つのギアAが同じ方向に回転し、取付台4と連動して前後に移動し、油圧ポンプ25の作用で、制御バルブ23が開く状態になり、油圧溝20の油圧の大きさの変化を実現し、押しレバー26のスキャン装置27の左右移動と連動して、第二モーター30が動作し、円錐形プーリーC32と円錐形プーリーD33が係合し伝動し、転向軸C34と連動して回転し、これによりギアB35と連動して回転し、ギアB35とギアC36が噛み合い、ギアC36が回転し、転向軸D37と連動して回転し、転向軸D37のカム38と連動して回転し、カム38と接触する滑りレバー39がカム38の回転と弾片43の弾性作用のもとで、案内滑りブロック40を通じて、滑りレバー39の昇降を実現し、滑りレバー39と固定的に接続するスキャン端44が昇降する。 In a specific method of use, when the present invention works, the express delivery is placed on the mounting base 4, the clamping structure 44 where the support point is located is selected, the rotating bolt 45 is rotated, and the rotating bolt 45 is Rotates and rotates in conjunction with gear D46 and gear E47, thereby moving down in conjunction with screw lever 49, pinching plate 53 and fixed wheel 52 form a pinching structure, firmly fixing the express delivery, express delivery Shake when the is scanned to prevent the scan from failing. When scanning, the first motor 6 works, the turning shaft A8 rotates, the conical pulley A9 and the conical pulley B10 engage and transmit, and rotates in conjunction with the turning shaft A11, thereby turning the turning shaft A11. , And the turning shaft A11 rotates through the belt and rotates in the same direction as the second transmission wheel 13 and the first transmission wheel 12, thereby interlocking with the turning shaft B14. The turning shaft B14 rotates and rotates in conjunction with the two gears A15 of the turning shaft B14, and the four gears A rotate in the same direction and move back and forth in conjunction with the mounting base 4. The control valve 23 is opened by the action of the pump 25, the change in the hydraulic pressure of the hydraulic groove 20 is realized, and the second motor 30 operates in conjunction with the left / right movement of the scanning device 27 of the push lever 26 The conical pulley C32 and the conical pulley D33 engage and transmit, and rotate in conjunction with the turning shaft C34. Rotates in conjunction with gear B35, gears B35 and C36 mesh, gear C36 rotates, rotates in conjunction with turning shaft D37, rotates in conjunction with cam 38 on turning shaft D37, The sliding lever 39 that comes into contact with the sliding lever 39 is moved up and down through the guide sliding block 40 under the rotation of the cam 38 and the elastic action of the bullet 43, and the scanning end 44 that is fixedly connected to the sliding lever 39 is provided. Go up and down.
本分野の技術者にとって、本発明は上記の模範の実施例の細部に限らなく、本発明の意義また基本的な特徴から背離しない状況で、その他の具体的な形式で本発明を実現できる。それゆえ、どこから見てもこの実施例を模範で制限性ではないことと見なして、本発明の範囲は添付の特許請求の範囲に確定され、特許請求の範囲と同等の意味範囲内にある全部の変化を本発明に包括させる。特許請求の範囲の中の全ての符号を特許請求の範囲を制限することとみなさない。 For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, the scope of the present invention is defined by the appended claims, and the scope of the present invention is defined in the appended claims as long as the examples are regarded as illustrative and not restrictive. These changes are included in the present invention. Any reference signs in the claims shall not be construed as limiting the claim.
本発明は物流分類分野に関し、具体的には速達分類システムに関する。 The present invention relates to the field of physical distribution classification, and specifically to an express delivery classification system .
物流輸送に常にいくつかの速達をスキャンし分類する必要があり、伝統的な速達分類システムの設定モードが簡単で、大型の速達を固定できなく、スキャンに深刻な影響があり、大きい弊害が存在し、改善する必要がある。 There is always a need to scan and classify several expresses for logistics transportation, the simple express delivery system setting mode is simple, large express cannot be fixed, the scan is seriously affected, and there is a big negative effect Need to be improved.
本発明は解決する必要な技術問題に対して速達分類システムを提供し、それは上記の現在の技術問題を解決できる。 The present invention provides an express classification system for the necessary technical problems to be solved, which can solve the current technical problems mentioned above.
上記の目的を実現するため、本発明は以下の技術方案を採用する。速達分類システムは台体を含み、前記台体の四つの角に同時に角ブロックが設置され、前記角ブロックの底部に回転輪が設置され、前記台体の内部に転向チャンバが設置され、前記転向チャンバの上端壁の左右両端には一つの滑り溝が対称的に設置され、左右二つの前記滑り溝の間には取付台がスライドできるように装着され、前記転向チャンバの前端壁に安置穴が設置され、前記安置穴の前端壁に第一モーターが固定的に接続され、前記安置穴の後端壁に透過穴が設置され、前記透過穴が安置穴と転向チャンバをつなげ、前記第一モーターに後端が透過穴を通り抜けた転向軸Aが動力が伝達可能なように接続され、前記転向軸Aの後端には固定的に接続する円錐形プーリーAが設置され、前記転向チャンバの左右端壁の中には転向軸Aが回転可能に接続され、前記転向軸Aには前記円錐形プーリーAと噛み合った円錐形プーリーBが固定的に設置され、前記転向軸Aが転向チャンバの左右両端壁と回転可能なように接続し、前記転向軸Aの一番左端に固定的に接続する第一伝達輪が設置され、前記第一伝達輪の後側にベルトを通じて駆動する第二伝達輪が設置され、前記第二伝達輪の中心にそれと固定し接続する転向軸Bが設置され、前記転向軸Aと転向軸Bに左右に対応するようにギアAが設置され、前記取付台の下端面に左右両端が対応するように二つのギア溝が設置され、前記ギアAがギア溝と転動し接続し、前記転向軸Aと転向軸Bに左右に対応するようにベアリングが設置され、前記台体の上端面の左右両端に対応するように支持アームが設置され、前記支持アームの上端面に二つのそれと固定的に接続する支台部が設置され、前記支台部に油圧溝が設置され、左側の油圧溝の上端面に油圧穴Aが設置され、右側の油圧溝の上端面に油圧穴Bが設置され、前記油圧穴Aと油圧穴Bに制御バルブが設置され、前記油圧穴Aと油圧穴Bにパイプが設置されそれらを連結し、前記パイプの中心に油圧ポンプが設置され、左右両側の油圧溝に押しレバーが設置され、前記押しレバーの中心にスキャン装置が固定的に接続し、前記スキャン装置がハウジングを含み、前記ハウジングに容チャンバが設置され、前記容チャンバの上端面に第二モーターが設置され、前記第二モーターの下端に転向軸Bが設置され、前記転向軸Bの下端にそれと固定し接続する円錐形プーリーCが設置され、前記円錐形プーリーCの下にそれと係合し接続する円錐形プーリーDが設置され、前記円錐形プーリーDの中心にそれと固定的に接続する転向軸Cが設置され、前記転向軸Cが容チャンバの左右端壁と回転可能なように接続し、前記転向軸Cに前記円錐形プーリーDの左側に位置するギアBが固定的に取り付けられ、前記ギアBの下にそれと係合し接続するギアCが設置され、前記ギアCの中心にそれと固定的に接続する転向軸Dが設置され、前記転向軸Dが容チャンバの左右端壁と回転可能なように接続し、前記転向軸Dに前記ギアCの右側に位置するカムが固定的に取り付けられ、前記カムの下端面に滑りレバーが設置され、前記滑りレバーの上端に左右に対応するように案内滑りブロックが設置され、前記容チャンバの壁が案内滑りブロックと対応する位置に案内滑り溝が設置され、前記案内滑りブロックが案内滑り溝に位置し上下に滑ることができ、前記案内滑り溝の上端壁に座ぐり筐体が設置され、前記座ぐり筐体の上端壁に弾片が固定的に接続され、前記弾片の下端が座ぐり筐体を通り抜けて案内滑りブロックと固定的に接続し、前記滑りレバーの下端が容チャンバを通り抜けてスキャン端が固定的に接続され、前記取付台の上端面に均等に分布する多くの挟固構造が設置され、前記挟固構造が前記取付台に設置される旋転溝を含み、前記旋転溝に回転ボルトと固定的に接続するギアDが設置され、前記ギアDの右側にそれと係合し接続するギアEが設置され、前記ギアEの中心にそれと固定的に接続するセット殻が設置され、前記セット殻の内部にねじ穴が設置され、前記ねじ穴にねじレバーが係合し接続され、前記ねじレバーの下端面に穴溝が設置され、前記穴溝に前記ねじレバーの下端面と固定的に接続するギア柱が摺動可能なように係合され、その作用はねじレバーが上下に運動することを保証し、ねじレバーが回転し運動することを防ぎ、前記ねじレバーが取付台と接続する所に固定的に接続する固定輪が設置され、前記第二モーターの外側に積載装置が設置され、前記積載装置が衝撃吸収厚板と冷却アルミ片を含む。 In order to achieve the above object, the present invention adopts the following technical scheme. The express delivery classification system includes a trapezoid, a corner block is simultaneously installed at four corners of the trapezoid, a rotating wheel is installed at the bottom of the corner block, a turning chamber is installed inside the trapezoid, and the turning One sliding groove is symmetrically installed at the left and right ends of the upper end wall of the chamber, a mounting base is slidably mounted between the two left and right sliding grooves, and an erection hole is formed in the front end wall of the turning chamber. The first motor is fixedly connected to the front end wall of the mounting hole, the transmission hole is installed in the rear end wall of the mounting hole, the transmission hole connects the mounting hole and the turning chamber, and the first motor A turning shaft A whose rear end passes through the transmission hole is connected so that power can be transmitted, and a conical pulley A that is fixedly connected is installed at the rear end of the turning shaft A, and left and right of the turning chamber. Turning axis A can rotate in the end wall Connected to, said the turning axis A wherein the conical pulleys A and meshed conical pulley B is installed fixedly, the turning axis A is connected so as to be rotatable left and right end walls of the deflection chamber, the A first transmission wheel that is fixedly connected to the leftmost end of the turning shaft A is installed, and a second transmission wheel that is driven through a belt is installed on the rear side of the first transmission wheel. A turning shaft B fixed and connected thereto is installed, a gear A is installed so as to correspond to the right and left of the turning shaft A and the turning shaft B, and two gears are provided so that the left and right ends correspond to the lower end surface of the mounting base. A groove is installed, the gear A rolls and connects with the gear groove, a bearing is installed so as to correspond to the right and left of the turning shaft A and the turning shaft B, and corresponds to the left and right ends of the upper end surface of the base body. A support arm is installed, and two support arms are provided on the upper end surface of the support arm. Is installed in a fixed manner, a hydraulic groove is installed in the abutment, a hydraulic hole A is installed in the upper end surface of the left hydraulic groove, and a hydraulic hole B is installed in the upper end surface of the right hydraulic groove. The control valve is installed in the hydraulic hole A and the hydraulic hole B, the pipe is installed in the hydraulic hole A and the hydraulic hole B, they are connected, and the hydraulic pump is installed in the center of the pipe. is pushed lever installed in the hydraulic groove of the center scanning device of the push lever is connected fixedly, wherein the scanning device includes a housing, volume chamber is installed in the housing, the upper end surface of the volume chamber Two motors are installed, a turning shaft B is installed at the lower end of the second motor, a conical pulley C is fixedly connected to the lower end of the turning shaft B, and a conical pulley C is connected to the lower end of the conical pulley C. Connecting conical pulley D Is installed, it the turning axis C fixedly connected is installed at the center of the conical pulley D, the turning axis C is connected so as to be rotatable right and left end walls of the containers chamber, the said turning axis C A gear B located on the left side of the conical pulley D is fixedly attached, and a gear C that engages and connects with the gear B is installed under the gear B, and a turning shaft that is fixedly connected to the center of the gear C D is installed, the turning shaft D is rotatably connected to the left and right end walls of the chamber , and a cam located on the right side of the gear C is fixedly attached to the turning shaft D, A sliding lever is installed on the end surface, a guide sliding block is installed at the upper end of the sliding lever so as to correspond to the left and right, a guide sliding groove is installed at a position where the wall of the volume chamber corresponds to the guiding sliding block, and the guide The sliding block is positioned in the guide sliding groove A countersink housing is installed on the upper end wall of the guide sliding groove, a bullet piece is fixedly connected to the upper end wall of the counterbore case, and the lower end of the bullet piece is countersunk Passing through the housing and fixedly connected to the guide slide block, the lower end of the slide lever passes through the volume chamber , the scan end is fixedly connected, and many clamps distributed evenly on the upper end surface of the mounting base. structure is installed, the clamping comprises a solid structure flipping groove installed in the mount, the flipping groove to rotate the bolt and the gear D fixedly connected is installed, the right side in the same engagement of the gear D A gear E to be connected is installed, a set shell fixedly connected to the center of the gear E is installed, a screw hole is installed inside the set shell, and a screw lever is engaged and connected to the screw hole. , A hole groove is installed in the lower end surface of the screw lever, A gear column fixedly connected to the lower end surface of the screw lever is slidably engaged with the groove, and its action ensures that the screw lever moves up and down, and the screw lever rotates and moves. A fixed wheel is installed to connect the screw lever to the mounting base, a loading device is installed outside the second motor, and the loading device is provided with a shock absorbing plate and a cooling aluminum piece. including.
好ましい技術方案として前記弾片の弾力が滑りレバーとスキャン端の重量の和よりはるかに大きい。 As a preferred technical solution, the elasticity of the bullet is much larger than the sum of the weight of the sliding lever and the scanning end.
好ましい技術方案として前記回転ボルトの上端に挟固板が嵌着される。 As a preferred technical solution, a clamping plate is fitted to the upper end of the rotating bolt.
好ましい技術方案として前記衝撃吸収厚板が前記第二モーターの上端と下端に設置され前記第二モーターと固定的に接続し、前記冷却アルミ片が前記第二モーターの前端と後端に設置され前記第二モーターの殻と固定的に接続し、前記冷却アルミ片の上端と下端が前記衝撃吸収厚板と固定的に接続し、前記第二モーターの前端と後端にそれぞれ多くの前記冷却アルミ片が設置される。 As a preferred technical solution, the shock absorbing planks are installed at the upper and lower ends of the second motor and fixedly connected to the second motor, and the cooling aluminum pieces are installed at the front and rear ends of the second motor. The cooling motor piece is fixedly connected to the shell of the second motor, the upper and lower ends of the cooling aluminum piece are fixedly connected to the shock-absorbing thick plate, and the cooling motor piece is provided at the front and rear ends of the second motor. Is installed.
既存の技術と比べ、本発明の有益な効果は、本発明が作業する時に、速達を取付台の上に置いて、支持点がある所の挟固構造を選択し、回転ボルトを回転し、回転ボルトが回転しギアDとギアEと連動して回転し、これによりねじレバーと連動して下に移動し、挟固板と固定輪が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。スキャンする時に、第一モーターが作業し、転向軸Aが回転し、円錐形プーリーAと円錐形プーリーBが係合し伝動し、転向軸Aと連動して回転し、これにより転向軸Aの二つの従動支持ギアと連動して回転し、ベルトを通じて転向軸Aが回転し第二伝達輪と第一伝達輪と連動して同じ方向に回転し、これにより転向軸Bと連動して回転し、転向軸Bが回転し転向軸Bの二つのギアAと連動して回転し、四つのギアAが同じ方向に回転し、取付台と連動して前後に移動し、油圧ポンプの作用で、制御バルブが開く状態になり、油圧溝の油圧の大きさの変化を実現し、押しレバーのスキャン装置の左右移動と連動して、第二モーターが動作し、円錐形プーリーCと円錐形プーリーDが係合し伝動し、転向軸Cと連動して回転し、これによりギアBと連動して回転し、ギアBとギアCが噛み合い、ギアCが回転し、転向軸Dと連動して回転し、転向軸Dのカムと連動して回転し、カムと接触する滑りレバーがカムの回転と弾片の弾性作用のもとで、案内滑りブロックを通じて、滑りレバーの昇降を実現し、滑りレバーと固定的に接続するスキャン端が昇降する。 Compared with the existing technology, the beneficial effect of the present invention is that when the present invention is operated, the express delivery is placed on the mounting base, the clamping structure where the support point is located is selected, the rotating bolt is rotated, The rotating bolt rotates and rotates in conjunction with the gear D and gear E. This moves down in conjunction with the screw lever. The clamping plate and the fixed ring form a clamping structure, and the express delivery is firmly fixed. Shake when the is scanned to prevent the scan from failing. When scanning, the first motor works, the turning shaft A rotates, the conical pulley A and the conical pulley B engage and transmit, and rotates in conjunction with the turning shaft A, thereby rotating the turning shaft A. It rotates in conjunction with the two driven support gears, the turning shaft A rotates through the belt, rotates in the same direction in conjunction with the second transmission wheel and the first transmission wheel, and thereby rotates in conjunction with the turning shaft B. The turning shaft B rotates and rotates in conjunction with the two gears A of the turning shaft B, the four gears A rotate in the same direction, move back and forth in conjunction with the mounting base, and by the action of the hydraulic pump, The control valve is in an open state, realizing a change in the hydraulic pressure in the hydraulic groove, and in conjunction with the left / right movement of the push lever scanning device, the second motor operates, and the conical pulley C and conical pulley D Engages and transmits, rotates in conjunction with the turning axis C, thereby rotating in conjunction with gear B, The gear B and gear C mesh, the gear C rotates, rotates in conjunction with the turning shaft D, rotates in conjunction with the cam on the turning shaft D, and the sliding lever that contacts the cam rotates the cam and the bullet Under the elastic action, the sliding lever is raised and lowered through the guide sliding block, and the scanning end fixedly connected to the sliding lever is raised and lowered.
既存の技術と比べ、本発明の有益な効果は、本発明が作業する時に、速達を取付台の上に置いて、支持点がある所の挟固構造を選択し、回転ボルトを回転し、回転ボルトが回転しギアDとギアEと連動して回転し、これによりねじレバーと連動して下に移動し、挟固板と固定輪が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。スキャンする時に、第一モーターが作業し、転向軸Aが回転し、円錐形プーリーAと円錐形プーリーBが係合し伝動し、転向軸Aと連動して回転し、これにより転向軸Aの二つの従動支持ギアと連動して回転し、ベルトを通じて転向軸Aが回転し第二伝達輪と第一伝達輪と連動して同じ方向に回転し、これにより転向軸Bと連動して回転し、転向軸Bが回転し転向軸Bの二つのギアAと連動して回転し、四つのギアAが同じ方向に回転し、取付台と連動して前後に移動し、油圧ポンプの作用で、制御バルブが開く状態になり、油圧溝の油圧の大きさの変化を実現し、押しレバーのスキャン装置の左右移動と連動して、第二モーターが動作し、円錐形プーリーCと円錐形プーリーDが係合し伝動し、転向軸Cと連動して回転し、これによりギアBと連動して回転し、ギアBとギアCが噛み合い、ギアCが回転し、転向軸Dと連動して回転し、転向軸Dのカムと連動して回転し、カムと接触する滑りレバーがカムの回転と弾片の弾性作用のもとで、案内滑りブロックを通じて、滑りレバーの昇降を実現し、滑りレバーと固定的に接続するスキャン端が昇降する。 Compared with the existing technology, the beneficial effect of the present invention is that when the present invention is operated, the express delivery is placed on the mounting base, the clamping structure where the support point is located is selected, the rotating bolt is rotated, The rotating bolt rotates and rotates in conjunction with the gear D and gear E. This moves down in conjunction with the screw lever. The clamping plate and the fixed ring form a clamping structure, and the express delivery is firmly fixed. Shake when the is scanned to prevent the scan from failing. When scanning, the first motor works, the turning shaft A rotates, the conical pulley A and the conical pulley B engage and transmit, and rotates in conjunction with the turning shaft A, thereby rotating the turning shaft A. It rotates in conjunction with the two driven support gears, the turning shaft A rotates through the belt, rotates in the same direction in conjunction with the second transmission wheel and the first transmission wheel, and thereby rotates in conjunction with the turning shaft B. The turning shaft B rotates and rotates in conjunction with the two gears A of the turning shaft B, the four gears A rotate in the same direction, move back and forth in conjunction with the mounting base, and by the action of the hydraulic pump, The control valve is in an open state, realizing a change in the hydraulic pressure in the hydraulic groove, and in conjunction with the left / right movement of the push lever scanning device, the second motor operates, and the conical pulley C and conical pulley D Engages and transmits, rotates in conjunction with the turning axis C, thereby rotating in conjunction with gear B, The gear B and gear C mesh, the gear C rotates, rotates in conjunction with the turning shaft D, rotates in conjunction with the cam on the turning shaft D, and the sliding lever that contacts the cam rotates the cam and the bullet Under the elastic action, the sliding lever is raised and lowered through the guide sliding block, and the scanning end fixedly connected to the sliding lever is raised and lowered.
下記では本発明に係る実施例の図面を交え、本発明に係る実施例の技術方案に対し、はっきりとした完全な説明を行い、ひと目で分かることは、説明する実施例はただ本発明の実施例の一部であり、全部の実施例ではないということである。本発明の実施例に基づき、本分野の当業者は創造的な労働を払わないことを前提に得た全部のその他の実施例は本発明の保護範囲にある。 In the following, with reference to the drawings of the embodiments according to the present invention, a clear and complete explanation is given to the technical solutions of the embodiments according to the present invention, and it can be understood at a glance that the described embodiments are merely implementations of the present invention. It is part of the example, not all examples. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that those skilled in the art do not pay creative labor are within the protection scope of the present invention.
図1〜5を参照し、本発明に係る実施例の速達分類システムは台体1を含み、前記台体1の四つの角に同時に角ブロック101が設置され、前記角ブロック101の底部に回転輪102が設置され、前記台体1の内部に転向チャンバ2が設置され、前記転向チャンバ2の上端壁の左右両端には一つの滑り溝3が対称的に設置され、左右二つの前記滑り溝3の間には取付台4がスライドできるように装着され、前記転向チャンバ2の前端壁に安置穴5が設置され、前記安置穴5の前端壁に第一モーター6が固定的に接続され、前記安置穴5の後端壁に透過穴7が設置され、前記透過穴7が安置穴5と転向チャンバ2をつなげ、前記第一モーター6に後端が透過穴7を通り抜けた転向軸A11が動力が伝達可能なように接続され、前記転向軸A11の後端には固定的に接続する円錐形プーリーA9が設置され、前記転向チャンバ2の左右端壁の中には転向軸A11が回転可能に接続され、前記転向軸A11には前記円錐形プーリーA9と噛み合った円錐形プーリーB10が固定的に設置され、前記転向軸A11が転向チャンバの左右両端壁と回転可能なように接続し、前記転向軸A11の一番左端に固定的に接続する第一伝達輪12が設置され、前記第一伝達輪12の後側にベルトを通じて駆動する第二伝達輪13が設置され、前記第二伝達輪13の中心にそれと固定し接続する転向軸B14が設置され、前記転向軸A11と転向軸B14に左右に対応するようにギアA15が設置され、前記取付台4の下端面に左右両端が対応するように二つのギア溝16が設置され、前記ギアA15がギア溝16と転動し接続し、前記転向軸A11と転向軸B14に左右に対応するようにベアリング17が設置され、前記台体1の上端面の左右両端に対応するように支持アーム18が設置され、前記支持アーム18の上端面に二つのそれと固定的に接続する支台部19が設置され、前記支台部19に油圧溝20が設置され、左側の油圧溝20の上端面に油圧穴A21が設置され、右側の油圧溝20の上端面に油圧穴B22が設置され、前記油圧穴A21と油圧穴B22に制御バルブ23が設置され、前記油圧穴A21と油圧穴B22にパイプ24が設置されそれらを連結し、前記パイプ24の中心に油圧ポンプ25が設置され、左右両側の油圧溝20に押しレバー26が設置され、前記押しレバー26の中心にスキャン装置27が固定的に接続し、前記スキャン装置27がハウジング28を含み、前記ハウジング28に容チャンバ29が設置され、前記容チャンバ29の上端面に第二モーター30が設置され、前記第二モーター30の下端に転向軸B31が設置され、前記転向軸B31の下端にそれと固定し接続する円錐形プーリーC32が設置され、前記円錐形プーリーC32の下にそれと係合し接続する円錐形プーリーD33が設置され、前記円錐形プーリーD33の中心にそれと固定的に接続する転向軸C34が設置され、前記転向軸C34が容チャンバ29の左右端壁と回転可能なように接続し、前記転向軸C34に前記円錐形プーリーD33の左側に位置するギアB35が固定的に取り付けられ、前記ギアB35の下にそれと係合し接続するギアC36が設置され、前記ギアC36の中心にそれと固定的に接続する転向軸D37が設置され、前記転向軸D37が容チャンバ29の左右端壁と回転可能なように接続し、前記転向軸D37に前記ギアC36の右側に位置するカム38が固定的に取り付けられ、前記カム38の下端面に滑りレバー39が設置され、前記滑りレバー39の上端に左右に対応するように案内滑りブロック40が設置され、前記容チャンバ29の壁が案内滑りブロック40と対応する位置に案内滑り溝41が設置され、前記案内滑りブロック40が案内滑り溝41に位置し上下に滑ることができ、前記案内滑り溝41の上端壁に座ぐり筐体42が設置され、前記座ぐり筐体42の上端壁に弾片43が固定的に接続され、前記弾片43の下端が座ぐり筐体42を通り抜けて案内滑りブロック40と固定的に接続し、前記滑りレバー39の下端が容チャンバ29を通り抜けてスキャン端44が固定的に接続され、前記取付台4の上端面に均等に分布する多くの挟固構造45が設置され、前記挟固構造45が前記取付台4に設置される旋転溝47を含み、前記旋転溝47に回転ボルト46と固定的に接続するギアD48が設置され、前記ギアD48の右側にそれと係合し接続するギアE49が設置され、前記ギアE49の中心にそれと固定的に接続するセット殻56が設置され、前記セット殻56の内部にねじ穴50が設置され、前記ねじ穴50にねじレバー51が係合し接続され、前記ねじレバー51の下端面に穴溝52が設置され、前記穴溝52に前記ねじレバー51の下端面と固定的に接続するギア柱53が摺動可能なように係合され、その作用はねじレバーが上下に運動することを保証し、ねじレバーが回転し運動することを防ぎ、前記ねじレバー51が取付台4と接続する所に固定的に接続する固定輪54が設置され、前記第二モーター30の外側に積載装置が設置され、前記積載装置が衝撃吸収厚板301と冷却アルミ片302を含む。 Referring to FIGS. 1 to 5, the express delivery classification system according to the embodiment of the present invention includes a platform 1, and a corner block 101 is installed at four corners of the platform 1 at the same time, and rotates at the bottom of the corner block 101. A ring 102 is installed, a turning chamber 2 is installed inside the base body 1, and one sliding groove 3 is symmetrically installed on both left and right ends of the upper end wall of the turning chamber 2, and the two left and right sliding grooves 3 is mounted so that the mounting base 4 can slide, and a mounting hole 5 is installed in the front end wall of the turning chamber 2, and a first motor 6 is fixedly connected to the front end wall of the mounting hole 5, A transmission hole 7 is installed in the rear end wall of the mounting hole 5, the transmission hole 7 connects the mounting hole 5 and the turning chamber 2, and a turning shaft A11 whose rear end passes through the transmission hole 7 is connected to the first motor 6. A conical pulley A9 is fixedly connected to the rear end of the turning shaft A11. Is, the inside of the deflection chamber 2 of the right and left end walls turning shaft A11 is connected rotatably, the turning shaft A11 conical pulleys B10 meshing with the conical pulley A9 in is installed fixedly, the turning shaft A11 is connected so as to be rotatable left and right end walls of the deflection chamber, the first transmission wheel 12 is installed fixedly connected to the leftmost of the turning shaft A11, after the first transfer wheel 12 A second transmission wheel 13 that is driven through a belt is installed on the side, and a turning shaft B14 that is fixed and connected to the center of the second transmission wheel 13 is installed so that the turning shaft A11 and the turning shaft B14 correspond to the left and right. The gear A15 is installed, and two gear grooves 16 are installed so that the left and right ends correspond to the lower end surface of the mounting base 4, the gear A15 rolls and connects with the gear groove 16, and the turning shaft A11 Bearings 17 are installed on the turning axis B14 so as to correspond to the left and right, Support arms 18 are installed so as to correspond to the left and right ends of the end face, two support bases 19 are fixedly connected to the upper end face of the support arm 18, and a hydraulic groove 20 is formed in the base part 19. The hydraulic hole A21 is installed on the upper end surface of the left hydraulic groove 20, the hydraulic hole B22 is installed on the upper end surface of the right hydraulic groove 20, and the control valve 23 is installed on the hydraulic hole A21 and the hydraulic hole B22. The pipe 24 is installed in and connected to the hydraulic hole A21 and the hydraulic hole B22, the hydraulic pump 25 is installed in the center of the pipe 24, the push levers 26 are installed in the hydraulic grooves 20 on both the left and right sides, and the push lever A scanning device 27 is fixedly connected to the center of 26, the scanning device 27 includes a housing 28, a housing chamber 29 is installed in the housing 28, and a second motor 30 is installed on the upper end surface of the housing chamber 29. , A turning shaft B31 is installed at the lower end of the second motor 30, A conical pulley C32 that is fixed and connected to the lower end of the turning shaft B31 is installed, and a conical pulley D33 that engages and connects to the conical pulley C32 is installed under the conical pulley C32, and is located at the center of the conical pulley D33. A turning shaft C34 that is fixedly connected thereto is installed, the turning shaft C34 is rotatably connected to the left and right end walls of the capacity chamber 29, and the gear positioned on the left side of the conical pulley D33 is connected to the turning shaft C34. B35 is fixedly attached, a gear C36 that engages and connects to the gear B35 is installed under the gear B35, a turning shaft D37 that is fixedly connected to the gear C36 is installed, and the turning shaft D37 is and connected so as to be rotatable right and left end walls of containers chamber 29, the cam 38 located on the right of the gear C36 in turning shaft D37 is fixedly attached, lever 39 sliding on the lower end surface of said cam 38 is installed Left and right at the upper end of the sliding lever 39 The guide slide block 40 is installed to correspond to the guide slide groove 41 at a position where the wall of the chamber 29 corresponds to the guide slide block 40, and the guide slide block 40 is located in the guide slide groove 41. It can slide up and down, a counterbore case 42 is installed on the upper end wall of the guide slide groove 41, a bullet piece 43 is fixedly connected to the upper end wall of the counterbore case 42, and The lower end passes through the counterbore housing 42 and is fixedly connected to the guide slide block 40, the lower end of the slide lever 39 passes through the volume chamber 29, and the scan end 44 is fixedly connected. Many clamping structures 45 that are evenly distributed on the end surface are installed, and the clamping structure 45 includes a turning groove 47 that is installed on the mounting base 4, and is fixedly connected to the turning groove 47 with a rotating bolt 46. A gear D48 is installed, and a gear E49 that engages with and connects to the right side of the gear D48 is installed. A set shell 56 fixedly connected thereto is installed at the center of the gear E49, a screw hole 50 is installed inside the set shell 56, and a screw lever 51 is engaged and connected to the screw hole 50; A hole groove 52 is installed in the lower end surface of the screw lever 51, and a gear column 53 that is fixedly connected to the lower end surface of the screw lever 51 is slidably engaged with the hole groove 52, and its action is A fixed ring 54 is installed, which ensures that the screw lever moves up and down, prevents the screw lever from rotating and moving, and connects the screw lever 51 to the mounting base 4 in a fixed manner. A loading device is installed outside the two motors 30, and the loading device includes a shock absorbing thick plate 301 and a cooling aluminum piece 302.
好ましくは前記弾片43の弾力が滑りレバー39とスキャン端44の重量の和よりはるかに大きく、これにより弾片43が弾力の作用のもとで滑りレバー39とスキャン端44と連動して上昇する。 Preferably, the elasticity of the elastic piece 43 is much larger than the sum of the weights of the sliding lever 39 and the scanning end 44, so that the elastic piece 43 rises in conjunction with the sliding lever 39 and the scanning end 44 under the action of elasticity. To do.
好ましくは前記回転ボルト46の上端に挟固板55が嵌着され、その作用は、挟固板55と固定輪54が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。 Preferably, a clamping plate 55 is fitted on the upper end of the rotating bolt 46, and the action thereof is that the clamping plate 55 and the fixed ring 54 form a clamping structure, firmly fix the express delivery, and shake when the express delivery is scanned. Prevent the scan from failing.
好ましくは前記衝撃吸収厚板301が前記第二モーター30の上端と下端に設置され前記第二モーター30と固定的に接続し、前記冷却アルミ片302が前記第二モーター30の前端と後端に設置され前記第二モーター30の殻と固定的に接続し、前記冷却アルミ片302の上端と下端が前記衝撃吸収厚板301と固定的に接続し、前記第二モーター30の前端と後端にそれぞれ多くの前記冷却アルミ片302が設置され、前記冷却アルミ片302が前記第二モーター30が動作する時に発生する熱量を吸収し発散し、前記衝撃吸収厚板301が前記第二モーター30が動作する時に発生する振動力を減らして、振動力が大きすぎて本装置の正常な運行を影響することを防ぐ。 Preferably, the shock absorbing thick plate 301 is installed at the upper and lower ends of the second motor 30 and fixedly connected to the second motor 30, and the cooling aluminum pieces 302 are provided at the front and rear ends of the second motor 30. It is installed and fixedly connected to the shell of the second motor 30, and the upper and lower ends of the cooling aluminum piece 302 are fixedly connected to the shock absorbing plate 301, and are connected to the front and rear ends of the second motor 30, respectively. Each of the cooling aluminum pieces 302 is installed, and the cooling aluminum piece 302 absorbs and dissipates heat generated when the second motor 30 operates, and the shock absorbing plate 301 operates the second motor 30. The vibration force generated at the time of operation is reduced to prevent the vibration force from being too large and affecting the normal operation of the apparatus.
具体的な使用方式において、本発明が作業する時に、速達を取付台4の上に置いて、支持点がある所の挟固構造44を選択し、回転ボルト45を回転し、回転ボルト45が回転しギアD46とギアE47と連動して回転し、これによりねじレバー49と連動して下に移動し、挟固板53と固定輪52が挟持構造を形成し、速達をしっかり固定し、速達がスキャンされる時に揺れて、スキャンが失敗することを防ぐ。スキャンする時に、第一モーター6が作業し、転向軸A8が回転し、円錐形プーリーA9と円錐形プーリーB10が係合し伝動し、転向軸A11と連動して回転し、これにより転向軸A11の二つの従動支持ギア15と連動して回転し、ベルトを通じて転向軸A11が回転し第二伝達輪13と第一伝達輪12と連動して同じ方向に回転し、これにより転向軸B14と連動して回転し、転向軸B14が回転し転向軸B14の二つのギアA15と連動して回転し、四つのギアAが同じ方向に回転し、取付台4と連動して前後に移動し、油圧ポンプ25の作用で、制御バルブ23が開く状態になり、油圧溝20の油圧の大きさの変化を実現し、押しレバー26のスキャン装置27の左右移動と連動して、第二モーター30が動作し、円錐形プーリーC32と円錐形プーリーD33が係合し伝動し、転向軸C34と連動して回転し、これによりギアB35と連動して回転し、ギアB35とギアC36が噛み合い、ギアC36が回転し、転向軸D37と連動して回転し、転向軸D37のカム38と連動して回転し、カム38と接触する滑りレバー39がカム38の回転と弾片43の弾性作用のもとで、案内滑りブロック40を通じて、滑りレバー39の昇降を実現し、滑りレバー39と固定的に接続するスキャン端44が昇降する。 In a specific method of use, when the present invention works, the express delivery is placed on the mounting base 4, the clamping structure 44 where the support point is located is selected, the rotating bolt 45 is rotated, and the rotating bolt 45 is Rotates and rotates in conjunction with gear D46 and gear E47, thereby moving down in conjunction with screw lever 49, pinching plate 53 and fixed wheel 52 form a pinching structure, firmly fixing the express delivery, express delivery Shake when the is scanned to prevent the scan from failing. When scanning, the first motor 6 works, the turning shaft A8 rotates, the conical pulley A9 and the conical pulley B10 engage and transmit, and rotates in conjunction with the turning shaft A11, thereby turning the turning shaft A11. , And the turning shaft A11 rotates through the belt and rotates in the same direction as the second transmission wheel 13 and the first transmission wheel 12, thereby interlocking with the turning shaft B14. The turning shaft B14 rotates and rotates in conjunction with the two gears A15 of the turning shaft B14, and the four gears A rotate in the same direction and move back and forth in conjunction with the mounting base 4. The control valve 23 is opened by the action of the pump 25, the change in the hydraulic pressure of the hydraulic groove 20 is realized, and the second motor 30 operates in conjunction with the left / right movement of the scanning device 27 of the push lever 26 The conical pulley C32 and the conical pulley D33 engage and transmit, and rotate in conjunction with the turning shaft C34. Rotates in conjunction with gear B35, gears B35 and C36 mesh, gear C36 rotates, rotates in conjunction with turning shaft D37, rotates in conjunction with cam 38 on turning shaft D37, The sliding lever 39 that comes into contact with the sliding lever 39 is moved up and down through the guide sliding block 40 under the rotation of the cam 38 and the elastic action of the bullet 43, and the scanning end 44 that is fixedly connected to the sliding lever 39 is provided. Go up and down.
本分野の技術者にとって、本発明は上記の模範の実施例の細部に限らなく、本発明の意義また基本的な特徴から背離しない状況で、その他の具体的な形式で本発明を実現できる。それゆえ、どこから見てもこの実施例を模範で制限性ではないことと見なして、本発明の範囲は添付の特許請求の範囲に確定され、特許請求の範囲と同等の意味範囲内にある全部の変化を本発明に包括させる。特許請求の範囲の中の全ての符号を特許請求の範囲を制限することとみなさない。 For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, the scope of the present invention is defined by the appended claims, and the scope of the present invention is defined in the appended claims as long as the examples are regarded as illustrative and not restrictive. These changes are included in the present invention. Any reference signs in the claims shall not be construed as limiting the claim.
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CN201810321560.5 | 2018-04-11 | ||
CN201810321560.5A CN108499889A (en) | 2018-04-11 | 2018-04-11 | A kind of safe express delivery sorting system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111561650A (en) * | 2020-05-02 | 2020-08-21 | 南京海精电子技术有限公司 | Steam turbine shafting data acquisition device |
CN113289909A (en) * | 2021-05-20 | 2021-08-24 | 杭州程意电器有限公司 | Have switch manufacturing equipment of mark function concurrently and use test sorting facilities |
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2018
- 2018-04-11 CN CN201810321560.5A patent/CN108499889A/en not_active Withdrawn
- 2018-04-29 JP JP2018087893A patent/JP2019181424A/en active Pending
Cited By (3)
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CN111561650A (en) * | 2020-05-02 | 2020-08-21 | 南京海精电子技术有限公司 | Steam turbine shafting data acquisition device |
CN113289909A (en) * | 2021-05-20 | 2021-08-24 | 杭州程意电器有限公司 | Have switch manufacturing equipment of mark function concurrently and use test sorting facilities |
CN113289909B (en) * | 2021-05-20 | 2023-08-08 | 杭州程意电器有限公司 | Test sorting equipment with marking function for switch manufacturing equipment |
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