JP2017521273A - Milling cutting adjustment equipment for processing the pipe wall interface - Google Patents
Milling cutting adjustment equipment for processing the pipe wall interface Download PDFInfo
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- JP2017521273A JP2017521273A JP2017505247A JP2017505247A JP2017521273A JP 2017521273 A JP2017521273 A JP 2017521273A JP 2017505247 A JP2017505247 A JP 2017505247A JP 2017505247 A JP2017505247 A JP 2017505247A JP 2017521273 A JP2017521273 A JP 2017521273A
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- 238000003801 milling Methods 0.000 title claims abstract description 73
- 238000007667 floating Methods 0.000 claims abstract description 47
- 238000003825 pressing Methods 0.000 claims abstract description 14
- 238000003754 machining Methods 0.000 claims abstract description 5
- 230000003028 elevating effect Effects 0.000 claims description 18
- 230000001360 synchronised effect Effects 0.000 claims description 10
- 239000003638 chemical reducing agent Substances 0.000 claims description 7
- 238000000034 method Methods 0.000 claims description 7
- 241000036848 Porzana carolina Species 0.000 claims description 3
- 230000003746 surface roughness Effects 0.000 abstract description 6
- 229910000831 Steel Inorganic materials 0.000 description 7
- 238000009415 formwork Methods 0.000 description 7
- 239000010959 steel Substances 0.000 description 7
- 238000010586 diagram Methods 0.000 description 2
- 238000005452 bending Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000000227 grinding Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000005498 polishing Methods 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q1/00—Members which are comprised in the general build-up of a form of machine, particularly relatively large fixed members
- B23Q1/01—Frames, beds, pillars or like members; Arrangement of ways
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q11/00—Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Milling Processes (AREA)
- Machine Tool Positioning Apparatuses (AREA)
- Machine Tool Units (AREA)
- Grinding Of Cylindrical And Plane Surfaces (AREA)
Abstract
【課題】 管壁の接合面を加工するフライス切削調整設備を提供することを課題とする。【解決手段】 本発明は管壁の接合面を加工するフライス切削調整設備を開示する。管壁の接合面を加工するフライス切削調整設備は、支持フレームと、支持フレームの上端に設けられた上蓋と、クロスレールとを含み、前記支持フレームが左支柱及び右支柱で、前記左支柱及び右支柱上に昇降装置を設けており、前記クロスレールが昇降装置を通じて左支柱及び右支柱と連接し、前記クロスレール上に浮動ビームを設けており、前記浮動ビーム上に浮動昇降機構を設け、前記浮動昇降機構の両端にフライス切削装置を設けており、前記フライス切削装置の下端にレールカーを設け、前記レールカーが加工管型の工作物を設置するために用いられ;上記構造を用いた後、浮動昇降機構の両端にフライス切削装置を設けており、フライス工具の下端に押付ローラを設けてフライス切削量の大きさを調整制御でき、操作時押付ローラで工作物上にしっかりと押し当てると同時に、フライス切削を行い、浮動昇降機構の制御下で、押付ローラ、フライス工具が浮動ビームと終始平行になるよう保持し、工作物の両接合面が同一平面上にあり、理想的な表面粗度及び平坦度を得ることができるよう保証する。【選択図】 図1PROBLEM TO BE SOLVED To provide a milling adjusting device for processing a joint surface of a pipe wall. The present invention discloses a milling cutting adjustment facility for machining a joint surface of a tube wall. A milling cutting adjusting device for processing the joint surface of the tube wall includes a support frame, an upper lid provided at an upper end of the support frame, and a cross rail, wherein the support frame is a left support column and a right support column, and the left support column and the left support column A lifting device is provided on the right column, the cross rail is connected to the left column and the right column through the lifting device, a floating beam is provided on the cross rail, and a floating lifting mechanism is provided on the floating beam, A milling machine is provided at both ends of the floating lifting mechanism, a rail car is provided at the lower end of the milling machine, and the rail car is used to install a work tube type workpiece; Milling cutting devices are provided at both ends of the floating lift mechanism, and a pressing roller is provided at the lower end of the milling tool to adjust and control the amount of milling cutting. Press firmly on the workpiece at the same time, and milling is performed, and under the control of the floating lifting mechanism, the pressing roller and the milling tool are held parallel to the floating beam from start to finish. It is on a flat surface to ensure that ideal surface roughness and flatness can be obtained. [Selection] Figure 1
Description
本発明は、フライス加工設備に関し、特に、半円管壁の接合面の傾きを加工するフライス切削調整設備に関する。 The present invention relates to a milling equipment, and more particularly, to a milling adjusting apparatus for machining the inclination of a joint surface of a semicircular pipe wall.
現在の管型枠は、別名スチール型枠であり、主にコンクリート製品を製作するための型枠であり、鋼管杭スチール型枠、電柱スチール型枠、排水管スチール型枠等の各種鋼構造の型枠を包括し、各種コンクリート柱、杭、管が均しく円形製品であるため通常の管型枠は大半が円形であり、且つ生産および製作の利便性のため管型枠の多くは2つの半円管型枠から組み立てられており、2つの管型枠の基材は通常厚み8〜12cmの鋼板を折り曲げて半円にされており、成形後の半円管壁の接合面は傾きを形成しやすく、型締め後に線接触又は点接触となり、こうすると型締めが密閉要求を満たすことができないため、型締め前に傾きを除去しなければならない。管壁筒体が長く、剛性が悪いという特性により、従来のカンナがけ加工方法を用いても加工できず、現在用いるのは手作業による管型枠接合面の削り研磨であり、手作業の削り研磨が傾き除去の効果を奏するが、手作業ではその接合面の真直度を把握しにくく、工作物の両接合面が同一平面上にあることを保証できず、理想的な表面粗度及び平坦度を得ることが困難である。 The current pipe formwork is also known as steel formwork, which is mainly used for producing concrete products, and has various steel structures such as steel pipe pile steel formwork, utility pole steel formwork, and drainage pipe steel formwork. Since all the concrete columns, piles, and pipes are uniform and circular products, most of the normal pipe molds are circular. It is assembled from a semicircular tube formwork, and the base material of the two tube formwork is usually made into a semicircle by bending a steel plate with a thickness of 8 to 12 cm, and the joint surface of the formed semicircular tube wall is inclined. Since it is easy to form and becomes a line contact or a point contact after mold clamping, the mold clamping cannot satisfy the sealing requirement, so the inclination must be removed before mold clamping. Due to the long tube wall cylinder and poor rigidity, it cannot be processed using the conventional cannaling method. Polishing has the effect of removing the tilt, but it is difficult to grasp the straightness of the joint surface by manual work, and it cannot be guaranteed that both joint surfaces of the workpiece are on the same plane, ideal surface roughness and flatness It is difficult to get a degree.
工作物の接合面を自動研削できることや、工作物の両接合面が同一平面上にあり、理想的な表面粗度及び平坦度を得ることを保証できるフライス切削調整設備をどのように設計するかは、現在解決が急務の課題となっている。 How to design milling adjustment equipment that can automatically grind the workpiece interface and ensure that both workpiece surfaces are on the same plane and that ideal surface roughness and flatness can be obtained. Currently, resolution is an urgent issue.
本発明が解決しようとする技術的課題は、半円管壁の接合面の傾きを加工する全自動フライス切削調整設備を提供することであり、該設備は操作が簡単で、研削速度が速く、工作物の両接合面が同一平面上にあり、理想的な表面粗度及び平坦度を得ることを保証できるフライス切削調整設備である。 The technical problem to be solved by the present invention is to provide a fully automatic milling adjustment equipment for machining the inclination of the joint surface of the semicircular tube wall, the equipment is easy to operate, the grinding speed is fast, This is a milling adjustment equipment that can ensure that both joint surfaces of the workpiece are on the same plane and that ideal surface roughness and flatness can be obtained.
上記技術的課題を解決するため、本発明は管壁の接合面を加工するフライス切削調整設備を提供し、支持フレームと、支持フレームの上端に設けられた上蓋と、クロスレールとを含み、前記支持フレームが左支柱及び右支柱で、前記左支柱及び右支柱上に昇降装置を設けており、前記クロスレールが昇降装置を通じて左支柱及び右支柱と連接し、前記クロスレール上に浮動ビームを設けており、前記浮動ビーム上に浮動昇降機構を設け、前記浮動昇降機構の両端にフライス切削装置を設けており、前記フライス切削装置の下端にレールカーを設け、前記レールカーが管壁加工物を設置するために用いられ;
前記昇降装置はスライドレールと昇降支持板と昇降バネとからなり、前記昇降バネがスライドレール外側に設けられ、前記昇降支持板がスライドレール上に固設され、前記左支柱及び右支柱内に同期油圧シリンダを設けており、前記同期油圧シリンダが昇降装置と連接し;
前記浮動昇降機構はカウンタウェイトとソラセシーブと摺動板とからなり、前記摺動板の上端に昇降油圧シリンダを設け、前記ソラセシーブの外周にワイヤーロープを巻き付け、前記浮動昇降機構がワイヤーロープを通じてカウンタウェイトを引っ張り、昇降油圧シリンダの圧力と運動の安定性を保持するよう制御し、前記摺動板が浮動ビーム及びクロスレールと固着し;
前記フライス切削装置はフライス工具と固定軸と電動機とからなり、前記フライス工具の下端に押付ローラを設けており、前記電動機が固定軸の上端に設けられ、フライス工具が固定軸の両端に設けられる。
In order to solve the above technical problem, the present invention provides a milling adjustment device for processing a joint surface of a tube wall, and includes a support frame, an upper lid provided at an upper end of the support frame, and a cross rail. The support frame is the left column and the right column, the lifting device is provided on the left column and the right column, the cross rail is connected to the left column and the right column through the lifting device, and the floating beam is provided on the cross rail. A floating elevating mechanism is provided on the floating beam, a milling machine is provided at both ends of the floating elevating mechanism, a rail car is provided at a lower end of the milling machine, and the rail car installs a pipe wall workpiece. Used for;
The lifting device includes a slide rail, a lifting support plate, and a lifting spring, the lifting spring is provided outside the slide rail, the lifting support plate is fixed on the slide rail, and is synchronized with the left column and the right column. A hydraulic cylinder is provided, the synchronous hydraulic cylinder being connected to the lifting device;
The floating lifting mechanism is composed of a counterweight, a sora sieve, and a sliding plate. A lifting hydraulic cylinder is provided at the upper end of the sliding plate, a wire rope is wound around the outer periphery of the sora sheave, and the floating lifting mechanism is connected to the counter weight through the wire rope. The sliding plate is secured to the floating beam and the cross rail;
The milling machine includes a milling tool, a fixed shaft, and an electric motor. A pressing roller is provided at a lower end of the milling tool, the electric motor is provided at an upper end of the fixed shaft, and a milling tool is provided at both ends of the fixed shaft. .
好ましくは、前記レールカーの一側にインバーター及び減速機を設け、前記レールカーがインバーター及び減速機を通じて前進又は後退の速度を制御する。 Preferably, an inverter and a speed reducer are provided on one side of the rail car, and the rail car controls a forward or reverse speed through the inverter and the speed reducer.
好ましくは、前記クロスレール上に少なくとも3個の丸穴を設けており、丸穴を通じてフライス切削装置の間隔を調整して工作物の幅に合わせる。 Preferably, at least three round holes are provided on the cross rail, and the distance between the milling machines is adjusted through the round holes to match the width of the workpiece.
好ましくは、前記フライス工具の周辺にソラセシーブ防塵カバーを設けており、前記固定軸の上端或いは下端に軸受を設け、前記軸受の下端にガイドプレート連結部材を設け、前記固定軸の周辺をハウジングで覆う。 Preferably, the milling tool is provided with a dust-proof dust cover, a bearing is provided at the upper or lower end of the fixed shaft, a guide plate connecting member is provided at the lower end of the bearing, and the periphery of the fixed shaft is covered with a housing. .
本発明は、従来技術に比べると、次の有益な効果を有する。
前記管壁の接合面を加工するフライス切削調整設備の前記左支柱及び右支柱上に昇降装置を設けており、前記クロスレールは、昇降装置を通じて左支柱及び右支柱と連接し、前記クロスレール上に浮動ビームを設け、前記浮動ビーム上に浮動昇降機構を設け、前記浮動昇降機構の両端にフライス切削装置を設け、前記フライス切削装置の下端にレールカーを設け;前記クロスレールが左支柱及び右支柱と一緒に、同期油圧シリンダの作用下で安定な上下移動を行うことができ、浮動ビーム上に浮動昇降機構を設け、昇降油圧シリンダが浮動ビームの上下移動を提供し、カウンタウェイトの作用下で昇降油圧シリンダの上下運動時に安定性を保持することを保証し、油圧リリーフ弁の制御下で理想的な圧力を得;このほかに、浮動昇降機構の両端にフライス切削装置を設けており、フライス工具の下端に押付ローラを設けてフライス切削量の大きさを調整制御でき、操作時押付ローラで工作物上にしっかりと押し当てると同時に、フライス切削を行い、浮動昇降機構の制御下で、押付ローラ、フライス工具が浮動ビームと終始平行になるよう保持し、工作物の両接合面が同一平面上にあり、理想的な表面粗度及び平坦度を得ることができるよう保証する。
The present invention has the following beneficial effects as compared with the prior art.
A lifting device is provided on the left column and the right column of the milling adjustment equipment for processing the joint surface of the tube wall, and the cross rail is connected to the left column and the right column through the lifting device, A floating beam is provided on the floating beam, a milling device is provided at both ends of the floating device, and a rail car is provided at the lower end of the milling device; the cross rail is a left column and a right column. Along with the operation of the synchronous hydraulic cylinder, it can perform a stable vertical movement, provided a floating lifting mechanism on the floating beam, the lifting hydraulic cylinder provides the vertical movement of the floating beam, under the action of the counterweight Ensures stability during the vertical movement of the lifting hydraulic cylinder, and obtains ideal pressure under the control of the hydraulic relief valve; The milling machine is equipped with a pressing roller at the lower end of the milling tool, and the amount of milling can be adjusted and controlled. During operation, the pressing roller is firmly pressed onto the workpiece and simultaneously milled. Under the control of the floating lifting mechanism, the pressing roller and milling tool are held in parallel with the floating beam from start to finish, and both joint surfaces of the workpiece are on the same plane to obtain ideal surface roughness and flatness. Guarantee that you can.
このほかに、前記レールカーは、インバーター及び減速機を通じて前進又は後退の速度を制御し、フライス切削調整設備全体を移動する必要がなく;昇降バネはスライドレール外側に設けられ、前記昇降支持板がスライドレール上に固設され、前記左支柱及び右支柱内に同期油圧シリンダを設けており、前記同期油圧シリンダが昇降装置と連接し、前記昇降装置が浮動ビームの両端のバランスを保持でき、全体的なフライス切削過程中、工作物を平らにする必要がなく、理想的な管壁の接合面をフライス切削できる。 In addition, the rail car controls the forward or backward speed through an inverter and a speed reducer, and does not need to move the entire milling adjustment equipment; the lifting spring is provided outside the slide rail, and the lifting support plate is slid It is fixed on the rail, and a synchronous hydraulic cylinder is provided in the left column and the right column, the synchronous hydraulic cylinder is connected to the lifting device, and the lifting device can maintain the balance of both ends of the floating beam. During the milling process, it is not necessary to flatten the workpiece and the ideal tube wall interface can be milled.
以下、添付図面及び具体的実施形態を組み合わせて本発明を詳細に説明するが、本発明を限定するものと理解すべきではない。 Hereinafter, the present invention will be described in detail in combination with the accompanying drawings and specific embodiments, but should not be understood as limiting the present invention.
図1に示すように、管壁の接合面を加工するフライス切削調整設備であって、支持フレーム1と、支持フレームの上端に設けられた上蓋2と、クロスレール3とを含み、前記支持フレーム1が左支柱101及び右支柱102で、前記左支柱101及び右支柱102上に昇降装置4を設けており、前記クロスレール3が昇降装置4を通じて左支柱101及び右支柱102と連接し、前記クロスレール3上に浮動ビーム9を設けており、前記浮動ビーム9上に浮動昇降機構5を設け、前記浮動昇降機構5の両端にフライス切削装置6を設けており、前記フライス切削装置6の下端にレールカー7を設け、前記レールカー7の一側にインバーター10及び減速機11を設け、前記レールカー7がインバーター10及び減速機11を通じて前進又は後退の速度を制御し、管壁加工物を設置するために用いられる。 As shown in FIG. 1, it is a milling adjustment equipment for processing a joint surface of a tube wall, and includes a support frame 1, an upper lid 2 provided at an upper end of the support frame, and a cross rail 3, and the support frame. 1 is a left support column 101 and a right support column 102, and a lifting device 4 is provided on the left support column 101 and the right support column 102, and the cross rail 3 is connected to the left support column 101 and the right support column 102 through the lifting device 4. A floating beam 9 is provided on the cross rail 3, a floating elevating mechanism 5 is provided on the floating beam 9, and milling cutting devices 6 are provided at both ends of the floating elevating mechanism 5. A rail car 7 is provided on the side of the rail car 7, and an inverter 10 and a speed reducer 11 are provided on one side of the rail car 7. The rail car 7 moves forward or backward through the inverter 10 and the speed reducer 11. Controls speed, used for installing the wall workpiece.
図2に示すように、前記昇降装置4はスライドレール401と昇降支持板402と昇降バネ403とからなり、前記昇降バネ403がスライドレール401外側に設けられ、前記昇降支持板402がスライドレール401上に固設され、前記左支柱101及び右支柱102内に同期油圧シリンダ8を設けており、前記同期油圧シリンダ8が昇降装置4と連接し;浮動ビーム9の両端に各々一対のスライドレール401を設け、該スライドレール401は浮動ビーム9が動作時に前後振動を発生しないよう確保し、スライドレール401外側に各々昇降バネ403を設けており、浮動ビーム9両端のバランスを保持でき、全体的なフライス切削過程中、工作物を正確に平らにする必要がなく、理想的な管壁の接合面をフライス加工できる。 As shown in FIG. 2, the lifting device 4 includes a slide rail 401, a lift support plate 402, and a lift spring 403. The lift spring 403 is provided outside the slide rail 401, and the lift support plate 402 is a slide rail 401. A synchronous hydraulic cylinder 8 is provided in the left column 101 and the right column 102, and the synchronous hydraulic cylinder 8 is connected to the lifting device 4; a pair of slide rails 401 at both ends of the floating beam 9, respectively. The slide rail 401 ensures that the floating beam 9 does not generate back-and-forth vibration during operation, and lift springs 403 are provided on the outside of the slide rail 401 to maintain the balance of the floating beam 9 at both ends. During the milling process, it is not necessary to accurately flatten the workpiece, and the ideal tube wall interface can be milled.
図3に示すように、前記浮動昇降機構5はカウンタウェイト501とソラセシーブ502と摺動板503とからなり、前記摺動板503の上端に昇降油圧シリンダ504を設け、前記ソラセシーブ502の外周にワイヤーロープ505を巻き付け、前記浮動昇降機構5がワイヤーロープ505を通じてカウンタウェイト501を引っ張り、昇降油圧シリンダ504の圧力と運動の安定性を保持するよう制御し、前記摺動板503が浮動ビーム9、クロスレール3と固着し;昇降装置4の両端、つまり浮動ビーム9の中部に浮動昇降機構5を配し、昇降油圧シリンダ504が浮動ビーム9の上下移動を提供し、浮動ビーム9の裏面に浮動ビーム9と同じ重量のカウンタウェイト501を有し、前記カウンタウェイト501の作用下で昇降油圧シリンダ504の上下運動時に安定性を保持することを保証し、油圧リリーフ弁の制御下で理想的な圧力を得ることができる。 As shown in FIG. 3, the floating elevating mechanism 5 includes a counterweight 501, a slab receive 502, and a sliding plate 503, and an elevating hydraulic cylinder 504 is provided at the upper end of the slidable plate 503. The rope 505 is wound, and the floating elevating mechanism 5 pulls the counter weight 501 through the wire rope 505 to control the pressure of the elevating hydraulic cylinder 504 so as to maintain the stability of the movement. It is fixed to the rail 3; a floating lifting mechanism 5 is arranged at both ends of the lifting device 4, that is, in the middle of the floating beam 9, and a lifting hydraulic cylinder 504 provides the vertical movement of the floating beam 9. 9 has a counterweight 501 having the same weight as that of the lift weight 9 under the action of the counterweight 501. Guarantee to retain the stability at the time of vertical motion of the Sunda 504, it is possible to obtain an ideal pressure under the control of the hydraulic relief valve.
図4に示すように、前記フライス切削装置6はフライス工具601と固定軸602と電動機603とからなり、前記フライス工具601の下端に押付ローラ604を設けており、前記電動機603が固定軸602の上端に設けられ、フライス工具601が固定軸602の両端に設けられ;浮動昇降機構5の両端にフライス切削装置6を設けており、フライス工具601の下端に押付ローラ604を設けてフライス切削量の大きさを調整制御でき、操作時押付ローラ604で工作物上にしっかりと押し当てると同時に、フライス切削を行い、浮動昇降機構5の制御下で、押付ローラ604、フライス工具601が浮動ビーム9と終始平行になるよう保持し、工作物の両接合面が同一平面上にあり、理想的な表面粗度及び平坦度を得ることができるよう保証し;
前記クロスレール3上に少なくとも3個の丸穴12を設けており、丸穴12を通じてフライス切削装置6の間隔を調整して工作物の幅に合わせ、前記フライス工具601の周辺にソラセシーブ防塵カバー13を設けており、前記固定軸602の上端或いは下端に軸受605を設け、前記軸受605の下端にガイドプレート連結部材15を設け、前記固定軸602の周辺にハウジング14で覆い;前記クロスレール3上に押付装置を設けており、クロスレール3が左支柱101及び右支柱102に沿って同期油圧シリンダ8の作用下で安定な上下移動を行い、移動前に押付装置を解放し、移動後押付装置を復旧すると共に固定を保持することで、クロスレール3の安定性及び剛性を確保する。
As shown in FIG. 4, the milling device 6 includes a milling tool 601, a fixed shaft 602, and an electric motor 603, and a pressing roller 604 is provided at the lower end of the milling tool 601, and the electric motor 603 has a fixed shaft 602. A milling tool 601 is provided at both ends of the fixed shaft 602; a milling cutting device 6 is provided at both ends of the floating lifting mechanism 5, and a pressing roller 604 is provided at the lower end of the milling tool 601 to adjust the amount of milling. The size can be adjusted and controlled. When pressed against the workpiece by the pressing roller 604 at the time of operation, milling is performed simultaneously. Under the control of the floating lifting mechanism 5, the pressing roller 604 and the milling tool 601 are connected to the floating beam 9. It is kept parallel from start to finish, and both joint surfaces of the workpiece are on the same plane, and ideal surface roughness and flatness can be obtained. To ensure;
At least three round holes 12 are provided on the cross rail 3, and the spacing of the milling machine 6 is adjusted through the round holes 12 to match the width of the workpiece. A bearing 605 is provided at the upper or lower end of the fixed shaft 602, a guide plate connecting member 15 is provided at the lower end of the bearing 605, and the periphery of the fixed shaft 602 is covered with a housing 14; The cross rail 3 performs a stable vertical movement under the action of the synchronous hydraulic cylinder 8 along the left column 101 and the right column 102, releases the pressing device before the movement, and presses after the movement. The stability and rigidity of the cross rail 3 are ensured by restoring and maintaining the fixation.
半円形筒体は、レールカー7のツーリングに吊り、両側のバランスを5mm範囲内に調整でき、フライス切削の電動機をオンにし、工作物をフライス工具601下端の押付ローラ604下に移動し、昇降装置をオンにし、浮動ビーム9が下方へ移動し、押付ローラ604が工作物をしっかりと押し当て、工作物がレールカー7の作用下で前進し、フライス工具601によってフライス切削処理を行い、工作物のフライス切削が完了した後、昇降装置をオンにし、フライス工具601は浮動ビーム9の駆動下で迅速に上方へ移動し、レールカー7をオンにし、工作物及びレールカー7が迅速に所定の位置までに後退し、到達後レールカー7をオフにし、レールカー7が停止し、フライス切削の操作を終える。 The semicircular cylinder can be hung on the tooling of the railcar 7, the balance on both sides can be adjusted within a range of 5 mm, the motor for milling is turned on, the workpiece is moved under the pressing roller 604 at the lower end of the milling tool 601, and the lifting device Is turned on, the floating beam 9 moves downward, the pressing roller 604 firmly presses the workpiece, the workpiece advances under the action of the railcar 7, the milling tool 601 performs a milling process, After the milling is completed, the lifting device is turned on, the milling tool 601 quickly moves up under the driving of the floating beam 9, turns on the rail car 7, and the workpiece and the rail car 7 quickly reach a predetermined position. Retreat and turn off the rail car 7 after reaching, the rail car 7 stops, and the milling operation is finished.
Claims (6)
前記昇降装置(4)はスライドレール(401)と昇降支持板(402)と昇降バネ(403)とからなり、前記昇降バネ(403)がスライドレール(401)外側に設けられ、前記昇降支持板(402)が前記スライドレール(401)上に固設され、前記左支柱(101)及び前記右支柱(102)内に同期油圧シリンダ(8)を設けており、前記同期油圧シリンダ(8)が前記昇降装置(4)と連接し、
前記浮動昇降機構(5)はカウンタウェイト(501)とソラセシーブ(502)と摺動板(503)とからなり、前記摺動板(503)の上端に昇降油圧シリンダ(504)を設け、前記ソラセシーブ(502)の外周にワイヤーロープ(505)を巻き付け、前記浮動昇降機構(5)が前記ワイヤーロープ(505)を通じて前記カウンタウェイト(501)を引っ張り、前記昇降油圧シリンダ(504)の圧力と運動の安定性を保持するよう制御し、前記摺動板(503)が前記浮動ビーム(9)及び前記クロスレール(3)と固着し、
前記フライス切削装置(6)はフライス工具(601)と固定軸(602)と電動機(603)とからなり、前記フライス工具(601)の下端に押付ローラ(604)を設けており、前記電動機(603)が前記固定軸(602)の上端に設けられ、前記フライス工具(601)が前記固定軸(602)の両端に設けられることを特徴とする管壁の接合面を加工するフライス切削調整設備。 A milling cutting adjusting device for processing a joint surface of a tube wall, including a support frame (1), an upper lid (2) provided at an upper end of the support frame, and a cross rail (3), the support frame (1) is a left column (101) and a right column (102), and a lifting device (4) is provided on the left column (101) and the right column (102), and the cross rail (3) A floating beam (9) is connected to the left column (101) and the right column (102) through an elevating device (4), and a floating beam (9) is provided on the cross rail (3). An elevating mechanism (5) is provided, a milling machine (6) is provided at both ends of the floating elevating mechanism (5), a rail car (7) is provided at the lower end of the milling machine (6), and the rail car (7 ) Install pipe wall workpiece Are used in order,
The elevating device (4) includes a slide rail (401), an elevating support plate (402), and an elevating spring (403). The elevating spring (403) is provided outside the slide rail (401), and the elevating support plate (402) is fixed on the slide rail (401), and a synchronous hydraulic cylinder (8) is provided in the left strut (101) and the right strut (102), and the synchronous hydraulic cylinder (8) Articulated with the lifting device (4),
The floating elevating mechanism (5) is composed of a counterweight (501), a sora sieve (502), and a sliding plate (503), and an elevating hydraulic cylinder (504) is provided at the upper end of the sliding plate (503). A wire rope (505) is wound around the outer periphery of (502), the floating lifting mechanism (5) pulls the counterweight (501) through the wire rope (505), and the pressure and motion of the lifting hydraulic cylinder (504) are Controlling to maintain stability, the sliding plate (503) is fixed to the floating beam (9) and the cross rail (3),
The milling device (6) includes a milling tool (601), a fixed shaft (602), and an electric motor (603). A pressing roller (604) is provided at a lower end of the milling tool (601), and the electric motor ( 603) is provided at the upper end of the fixed shaft (602), and the milling tool (601) is provided at both ends of the fixed shaft (602). .
The milling cutting adjusting device for machining the joint surface of the tube wall according to claim 1, wherein the periphery of the fixed shaft (602) is covered with a housing (14).
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CN201410758268.1A CN105728809B (en) | 2014-12-12 | 2014-12-12 | A kind of milling adjusting device for processing tube wall plane |
CN201410758268.1 | 2014-12-12 | ||
PCT/CN2014/093906 WO2016090649A1 (en) | 2014-12-12 | 2014-12-16 | Milling adjusting device for processing pipe wall plane |
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CN108015609B (en) * | 2017-12-13 | 2023-06-30 | 湖南巨人机床集团有限公司 | Floating type counterweight structure of main shaft box of gantry machining center |
CN109262854A (en) * | 2018-08-23 | 2019-01-25 | 南京柯瑞特种陶瓷股份有限公司 | Ceramic honey comb excircle processing lathe |
CN110744317B (en) * | 2019-11-13 | 2020-09-29 | 河南水利与环境职业学院 | Vertical double-sided milling machine |
CN112404530B (en) * | 2020-12-09 | 2022-09-27 | 菲斯达精密工业部件(苏州)有限公司 | Horizontal milling machine tool |
CN113500436B (en) * | 2021-07-26 | 2022-06-28 | 重庆君工装饰工程有限责任公司 | Novel hydraulic pressure accessory is with processing location upset device |
CN113600880B (en) * | 2021-08-16 | 2023-08-15 | 大连交通大学 | Milling adjustment equipment for machining pipe wall plane |
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MY183431A (en) | 2021-02-18 |
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