JP2019006606A - Intelligent spinning winding equipment - Google Patents

Intelligent spinning winding equipment Download PDF

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Publication number
JP2019006606A
JP2019006606A JP2018117486A JP2018117486A JP2019006606A JP 2019006606 A JP2019006606 A JP 2019006606A JP 2018117486 A JP2018117486 A JP 2018117486A JP 2018117486 A JP2018117486 A JP 2018117486A JP 2019006606 A JP2019006606 A JP 2019006606A
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Prior art keywords
housing
slide
groove
guide
slide block
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Japanese (ja)
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譚偉彬
wei bin Tan
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Wu Kangkang
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Wu Kangkang
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/10Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers
    • B65H54/20Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers forming multiple packages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/40Arrangements for rotating packages
    • B65H54/44Arrangements for rotating packages in which the package, core, or former is engaged with, or secured to, a driven member rotatable about the axis of the package
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/40Arrangements for rotating packages
    • B65H54/54Arrangements for supporting cores or formers at winding stations; Securing cores or formers to driving members
    • B65H54/553Both-ends supporting arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/70Other constructional features of yarn-winding machines
    • B65H54/74Driving arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Storing, Repeated Paying-Out, And Re-Storing Of Elongated Articles (AREA)
  • Winding Filamentary Materials (AREA)
  • Spinning Or Twisting Of Yarns (AREA)

Abstract

To provide an intelligent spinning winding equipment with easy structure, reasonable design, possible to realize intelligent control, possible to increase safety, increase installation speed, reduce a manufacturing cost by reducing equipment input, and maintain the cost.SOLUTION: Equipment includes: a housing; and winding parts attached to an end face of a top part of the housing and installed symmetrically. Each winding part includes a support post installed on the left side, an adjustment post installed on the right side, and a winding tube installed between the support post and the adjustment post. Guide enclosures extending in the left and right inside the housing are installed symmetrically, and through grooves extending along the left and right sides of the top of the guide enclosures are installed in communication on the top of each guide enclosure, and the guide grooves communicate with each other at the top of the extended portion on the right side of each through groove, and a first slide block slides and engages in the guide enclosure and is connected, and a projecting block inserted into the through groove is installed on the left side of the top of the first slide block.SELECTED DRAWING: Figure 8

Description

本発明は紡織加工技術分野に関し、具体的には、知能紡織巻線設備に関する。 The present invention relates to the field of textile processing technology, and more particularly to intelligent textile winding equipment.

目の前に、紡織業界は快速に発展し、紡織巻線機が紡織工業中に欠けないほど重要な役割を果たしている。伝統的な手回し紡織巻線機はスピードが低いし、巻線効率が低下で、現在の生産上の需要を満足できない。自動紡織巻線機を使えば、巻線効率を向上でき、同時に糸玉の混乱を避けられる。ただし、現有の紡織巻線機は操作が複雑で、また、紡織巻線機上に固定される巻線筒のサイズが限定されるため、需要に応じてサイズの違った巻線筒を調整できない。また、一部の紡織巻線機は一体構造で分解と取付けに不便がある。これらの要素は疑問の余地がないほど紡織巻線機の作動に影響をもたらし、使用者に不便をもたらす。   In front of the eyes, the textile industry is rapidly developing, and the winding machine plays an important role in the textile industry. Traditional hand-punched winding machines have low speed and low winding efficiency, which cannot meet the current production demand. Using an automatic textile winding machine can improve winding efficiency and at the same time avoid confusion with yarn balls. However, the operation of the existing textile winding machine is complicated, and the size of the winding cylinder fixed on the textile winding machine is limited, so it is not possible to adjust the winding cylinders of different sizes according to demand. . Some textile winding machines have an integral structure and are inconvenient to disassemble and install. These factors undoubtedly affect the operation of the textile winding machine and inconvenience the user.

中国特許出願公開第105274663号明細書Chinese Patent Application No. 105274663 Specification

本発明の目的は上記の背景技術に提出された問題を解決するための知能紡織巻線設備を提供することにある。   It is an object of the present invention to provide an intelligent textile winding equipment for solving the problems submitted in the background art.

上記の目的を実現するために、本発明の知能紡織巻線設備には、ハウジングと、前記ハウジングの頂部の端面に取付けられるかつ左右対称に設置される巻線部品を含み、それぞれの前記巻線部品が左側に設置される支持柱、右側に設置される調節柱及び前記支持柱と前記調節柱の間に設置される巻線筒を含み、前記ハウジングの内に左右に伸びるガイド筐体が左右対称に設置され、それぞれのガイド筐体の頂部に前記ガイド筐体の頂部の左右両側に沿って伸びる通し溝が連通し合って設置され、それぞれの前記通し溝の右側の伸長部分の頂部にガイド溝が連通し合って設置され、前記ガイド筐体の内に第一スライドブロックがスライドし係合し接続され、前記第一スライドブロックの頂部の左側に前記通し溝に挿入する突出ブロックが設置され、前記第一スライドブロックに左右に伸びる第一ねじボルトがねじで係合し接続され、それぞれの前記ガイド筐体の左側の前記ハウジングの内に伝動筐体が設置され、それぞれの前記伝動筐体の右側の内壁に第一段車が回転し係合し接続され、それぞれの前記伝動筐体の内底壁に右側の上部が前記第一段車の左側の下部と噛合接続する第二段車が設置され、左側の前記ガイド筐体の下の前記ハウジングの内に左右に伸びる駆動スライド筐体が設置され、前記駆動スライド筐体の左側の伸長部分が左側の前記伝動筐体の下にあり、前記駆動スライド筐体の右側の伸長部分が右側の前記伝動筐体の下にあり、前記駆動スライド筐体の内頂壁の真ん中にスライド溝が設置され、前記駆動スライド筐体の内に第二スライドブロックが設置され、前記第二スライドブロックの頂部の真ん中に上へ設置される第三スライドブロックが固定に設置され、前記第三スライドブロックの頂部の伸長部分が前記スライド溝に挿入するかつスライドし係合し接続し、前記スライド溝の内に左右に伸びるかつ前記第三スライドブロックとねじで係合し接続する第二ねじボルトが設置され、前記第二スライドブロックの左右両側の頂部に支持レバーが固定に設置され、前記駆動スライド筐体の内の前記第三スライドブロックに主制御電機が設置され、前記主制御電機の左右両側にいずれも回転軸が係合し接続され、前記調節柱の頂部にスライド装置が設置される。 In order to achieve the above object, the intelligent textile winding equipment of the present invention includes a housing and winding parts attached to the end face of the top of the housing and installed symmetrically. A support column installed on the left side, an adjustment column installed on the right side, and a winding cylinder installed between the support column and the adjustment column. Installed symmetrically, a through groove extending along the left and right sides of the top of the guide housing is connected to the top of each guide housing, and a guide is provided at the top of the right extension of each through housing. Grooves are connected to each other, the first slide block is slidably engaged and connected in the guide housing, and a protruding block that is inserted into the through groove is installed on the left side of the top of the first slide block. A first screw bolt extending to the left and right is connected to the first slide block by a screw, and a transmission housing is installed in the housing on the left side of each guide housing. The first step car rotates and engages with the inner wall on the right side of the transmission, and the upper part on the right side meshes with the lower part on the left side of the first step car on the inner bottom wall of each transmission housing. A drive slide housing extending left and right is installed in the housing under the left guide housing, and a left extension portion of the drive slide housing is under the left transmission housing The right extension of the drive slide housing is below the right transmission housing, and a slide groove is installed in the middle of the inner top wall of the drive slide housing. Two slide blocks are installed, A third slide block installed upward in the middle of the top of the two slide blocks is fixedly installed, and an extended portion of the top of the third slide block is inserted into the slide groove and slidably engaged and connected; A second screw bolt extending left and right in the slide groove and engaging and connecting with the third slide block with a screw is installed, and a support lever is fixedly installed on the top of the left and right sides of the second slide block, A main control electric machine is installed on the third slide block in the drive slide housing, and both the left and right sides of the main control electric machine are connected with rotating shafts, and a slide device is installed on the top of the adjustment column. The

好ましい技術プランとして、前記支持柱の底部が前記ハウジングの頂部の端面と固定に接続し、前記支持柱の右側の端面に巻線電機が設置され、前記巻線電機の右端に前記支持柱の右側の端面外に差し出る第一噛合部品が係合し接続され、前記調節柱の左側の端面に前記第一噛合部品と相対する第二噛合部品が回転し係合し接続される。 As a preferred technical plan, the bottom of the support column is fixedly connected to the end surface of the top of the housing, a winding electric machine is installed on the right end surface of the support column, and the right side of the support column is on the right end of the winding electric machine. A first meshing part that is pushed out of the end face is engaged and connected, and a second meshing part that is opposed to the first meshing part is rotated and engaged and connected to the left end face of the adjustment column.

好ましい技術プランとして、それぞれの前記ガイド溝の右側の内壁に沈み溝が設置され、前記沈み溝の右側の内壁に左側に伸びるガイドレバーが固定に設置され、前記ガイドレバーの左側の伸長部分が前記ガイド溝に挿入するかつ前記ガイド溝の左側の内壁と固定に接続し、前記調節柱の底部が前記ガイド溝に通して前記通し溝に挿入し、前記ガイド溝にある前記調節柱が前記ガイドレバーとスライドし係合し接続し、前記調節柱の右側の前記ガイドレバーの外表面に圧縮ばねが周設される。 As a preferred technical plan, a sinking groove is installed on the inner wall on the right side of each guide groove, a guide lever extending on the left side is fixedly installed on the inner wall on the right side of the sinking groove, and an extension part on the left side of the guide lever is Inserted into the guide groove and fixedly connected to the inner wall on the left side of the guide groove, the bottom of the adjustment column is inserted into the through groove through the guide groove, and the adjustment column in the guide groove is the guide lever And a compression spring is provided around the outer surface of the guide lever on the right side of the adjustment column.

好ましい技術プランとして、それぞれの前記第一ねじボルトの左側の伸長部分がそれぞれの前記ガイド筐体の左側の内壁を貫通するかつ回転し係合し接続され、前記第一ねじボルトの左側の末端が前記伝動筐体に挿入するかつ前記第一段車の右端と固定に接続し、前記第一ねじボルトの右端が前記伝動筐体の右側の内壁と回転し係合し接続する。 As a preferred technical plan, the left extension of each first screw bolt penetrates and rotates into the left inner wall of each guide housing, and the left end of the first screw bolt is connected. The right end of the first screw bolt is inserted into the transmission housing and fixedly connected to the right end of the first car, and the right end of the first screw bolt rotates and engages with the right inner wall of the transmission housing.

好ましい技術プランとして、前記第二ねじボルトの左端が前記スライド溝の左側の内壁と回転し係合し接続し、前記第二ねじボルトの右端が切替駆動電機と係合し接続し、前記切替駆動電機の外表面が前記スライド溝の右側の内壁に貫入するかつ固定に接続される。 As a preferred technical plan, the left end of the second screw bolt rotates and engages with an inner wall on the left side of the slide groove, and the right end of the second screw bolt engages and connects with a switching drive electric machine, and the switching drive. The outer surface of the electric machine penetrates into the inner wall on the right side of the slide groove and is fixedly connected.

好ましい技術プランとして、左側の前記伝動筐体の下の前記駆動スライド筐体の内頂壁と右側の前記伝動筐体の下の前記駆動スライド筐体の内頂壁にいずれも第三段車が回転し係合し接続され、それぞれの前記第三段車と前記第二段車に伝動軸が固定に設置され、左右両側の前記伝動軸がそれぞれ左右両側の前記伝動筐体と前記駆動スライド筐体の間の前記ハウジングの内壁体を貫通するかつ回転し係合し接続する。 As a preferred technical plan, there is a third stage car on both the inner top wall of the drive slide housing under the left transmission housing and the inner top wall of the drive slide housing under the right transmission housing. Rotating, engaging and connecting, a transmission shaft is fixedly installed on each of the third gear and the second gear, and the transmission shafts on the left and right sides are respectively connected to the transmission housing and the drive slide housing on the left and right sides. Passes through and rotates and engages and connects the inner wall of the housing between the bodies.

好ましい技術プランとして、左側の前記伝動軸の左側の末端が左側の前記支持レバーと回転し係合し接続し、右側の前記伝動軸の右側の末端が右側の前記支持レバーと回転し係合し接続し、左右両側の前記回転軸の前記主制御電機から遠離する側に第四段車が円周方向に固定に設置される As a preferred technical plan, the left end of the left transmission shaft rotates and engages with the left support lever, and the right end of the right transmission shaft rotates and engages the right support lever. A fourth car is fixedly installed in the circumferential direction on the left and right sides of the rotary shaft on the side far from the main control electric machine.

好ましい技術プランとして、前記駆動スライド筐体の左右両側の内壁に第一接触センサと第二接触センサがそれぞれ固定に設置され、前記第一接触センサが前記第二スライドブロックに左側の端面と相対し、前記第二接触センサが前記第二スライドブロックの右側の端面と相対し、前記第一接触センサが左側の前記巻線部品にある前記巻線電機と電気で接続し、前記第二接触センサが右側の前記巻線部品の内の前記巻線電機と電気で接続する。 As a preferred technical plan, a first contact sensor and a second contact sensor are fixedly installed on the left and right inner walls of the drive slide housing, and the first contact sensor is opposed to the left end surface of the second slide block. The second contact sensor is opposed to the right end surface of the second slide block, the first contact sensor is electrically connected to the winding electrical machine in the left winding component, and the second contact sensor is It electrically connects with the said winding electric machine in the said winding components of the right side.

好ましい技術プランとして、前記スライド装置がスライド輪を含み、前記調節柱の底部に第一スライド筐体が設置され、前記スライド輪が前記第一スライド筐体の内に設置され、前記スライド輪が前記通し溝の内壁とスライドし係合し接続し、前記スライド装置を設置することで摩擦を減少できる。 As a preferred technical plan, the slide device includes a slide wheel, a first slide housing is installed at the bottom of the adjustment column, the slide wheel is installed in the first slide housing, and the slide wheel is Friction can be reduced by sliding and engaging and connecting with the inner wall of the through groove and installing the slide device.

本発明の有益効果は: The beneficial effects of the present invention are:

1. 駆動スライド筐体の内頂壁の真ん中にスライド溝が設置され、駆動スライド筐体に第二スライドブロクが設置され、第二スライドブロックの頂部の真ん中に上に沿って設置される第三スライドブロックが固定に設置され、第三スライドブロックの頂部の伸長部分がスライド溝に挿入するかつスライドし係合し接続され、スライド溝に左右に伸びるかつ第三スライドブロックとねじで係合し接続する第二ねじボルトが設置され、第二スライドブロックの左右両側の頂部に支持レバーが固定に設置され、駆動スライド筐体の内の第三スライドブロックの内に主制御電機が設置され、主制御電機の左右両側にそれぞれ回転軸が係合し接続され、これにより左右に切替駆動コントロールを実現し、作業効率を高め、自動に分解作動をコントロールすることを実現する。   1. A slide groove is installed in the middle of the inner top wall of the drive slide housing, a second slide block is installed in the drive slide housing, and a third is installed along the top in the middle of the top of the second slide block. The slide block is fixedly installed, and the extended part at the top of the third slide block is inserted into the slide groove and slidably engaged, connected to the slide groove to the left and right and engaged with the third slide block with a screw. Second screw bolts are installed, support levers are fixedly installed on the left and right sides of the second slide block, a main control electric machine is installed in the third slide block of the drive slide housing, and the main control Rotating shafts are engaged and connected to both the left and right sides of the electric machine, thereby realizing switching drive control to the left and right, improving work efficiency and automatically controlling the disassembly operation. To realize that.

2. それぞれのガイド溝の右側の内壁に沈み溝が設置され、鎮溝の右側の内壁に左側に伸びるガイドレバーが固定に設置され、ガイドレバーの左側の伸長部分がガイド溝に挿入するかつガイド溝の左側の内壁と固定に接続し、調節柱の底部がガイド溝を通した後で通し溝に挿入し、ガイド溝の内の調節柱がガイドレバーとスライドし係合し接続し、調節柱の右側のガイドレバーの外表面に圧縮ばねが周設され、これにより調節柱の左右指向スライド作動を実現し、巻線筒の快速な取付けと分解を実現し、同時に自動整復取付けを実現し、分解スピードを高める。   2. A sinking groove is installed on the right inner wall of each guide groove, a guide lever extending to the left is fixedly installed on the inner wall on the right side of the groove, and the left extension of the guide lever is inserted into the guide groove and the guide Connected to the inner wall on the left side of the groove and fixed, the bottom of the adjustment column passes through the guide groove and then inserted into the through groove, and the adjustment column in the guide groove slides into engagement with the guide lever and connects to the adjustment column. A compression spring is installed around the outer surface of the guide lever on the right side of this, which realizes a left-right sliding operation of the adjustment column, realizes quick installation and disassembly of the winding cylinder, and at the same time realizes automatic reduction installation, Increase decomposition speed.

3. 駆動スライド筐体の左右両側の内壁にそれぞれ第一接触センサと第二接触センサが固定に設置され、第一接触センサが第二スライドブロックの左側の端面と向かい合い、第二接触センサが第二スライドブロックの右側の端面と向かい合い、第一接触センサが左側の巻線部品の内の巻線電機と電気で接続し、第二接触センサが右側の巻線部品の内の巻線電機と電気で接続し、これにより知能コントロールを実現し、作動効率と安全性を高める。 3. A first contact sensor and a second contact sensor are fixedly installed on the inner walls on both the left and right sides of the drive slide housing, the first contact sensor faces the left end face of the second slide block, and the second contact sensor Facing the right end face of the two slide blocks, the first contact sensor is electrically connected to the winding machine in the left winding part, and the second contact sensor is electrically connected to the winding machine in the right winding part. Connected with this, intelligent control is realized, and working efficiency and safety are improved.

4.本発明は構造が簡単で、設計が合理で、知能コントロールを実現でき、安全性を高め、調節柱の左右移動をコントロールすることで巻線筒の快速に取付けられるまたは分解でき、同時に圧縮ばねによって自動整復取付け作動を実現し、取付けスピードを高め、切替作動を自動にコントロールでき、設備投入を減少することで製造コストを下げるかつコストを維持する。 4. The present invention is simple in structure, rational in design, can realize intelligent control, improve safety, and can be installed or disassembled at high speed of the winding cylinder by controlling the right and left movement of the adjusting column, and at the same time compress The automatic reduction mounting operation is realized by the spring, the mounting speed is increased, the switching operation can be automatically controlled, and the manufacturing cost is reduced and the cost is maintained by reducing the equipment input.

本説明しやすいため、本発明は以下の具体的な実施例と付図を交え詳しく説明する。 For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and accompanying drawings.

図1は本発明の知能紡織巻線設備である。FIG. 1 shows the intelligent textile winding equipment of the present invention. 図2は本発明の左側の第四段車と左側の第三段車が噛合接続する時の構造概略図である。FIG. 2 is a schematic structural view of the left fourth step wheel and the left third step wheel of the present invention when they are in mesh connection. 図3は本発明の左側の通し溝の内の突出ブロックと左側の巻線部品の内の調節柱が突き合う時の構造概略図である。FIG. 3 is a structural schematic diagram when the protruding block in the left through groove of the present invention and the adjustment column in the left winding part abut each other. 図4は本発明の左側の巻線部品の内の調節柱が左側のガイド溝の内の一番右側に移動して着いた時の構造概略図である。FIG. 4 is a schematic diagram of the structure when the adjusting column in the left winding component of the present invention is moved to the rightmost side in the left guide groove. 図5は本発明の右側の第四段車と右側の第三段車と噛合接続する時の構造概略図である。FIG. 5 is a schematic diagram of the structure of the present invention when it is meshingly connected with the fourth wheel on the right side and the third wheel on the right side. 図6は本発明の右側の通し溝の内の突出ブロックと右側の巻線部品の内の調節柱と突き合う時の構造概略図である。FIG. 6 is a schematic view of the structure when the protruding block in the right through groove of the present invention and the adjustment column in the right winding part are abutted. 図7は本発明の右側の巻線部品の内の調節柱が右側のガイド溝の内の一番右側に移動して着いた時の構造概略図である。FIG. 7 is a schematic diagram of the structure when the adjusting column in the right-hand winding component of the present invention is moved to the rightmost side in the right guide groove. 図8は本発明の駆動スライド筐体の内部構造概略図である。FIG. 8 is a schematic diagram of the internal structure of the drive slide housing of the present invention.

図1〜8が示すように、本発明の知能紡織巻線設備は、ハウジング5、前記ハウジング5の頂部の端面に取付けられるかつ左右対称に設置される巻線部品6を含み、それぞれの前記巻線部品6が左側に設置される支持柱61、右側に設置される調節柱63及び前記支持柱61と前記調節柱の間に設置される巻線筒7を含み、前記ハウジング5の内に左右に伸びるガイド筐体54が左右対称に設置され、それぞれのガイド筐体54の頂部に前記ガイド筐体54の頂部の左右両側に沿って伸びる通し溝53が連通し合って設置され、それぞれの前記通し溝53の右側の伸長部分の頂部にガイド溝51が連通し合って設置され、前記ガイド筐体54の内に第一スライドブロック542がスライドし係合し接続され、前記第一スライドブロック542の頂部の左側に前記通し溝53に挿入する突出ブロック531が設置され、前記第一スライドブロック542に左右に伸びる第一ねじボルト541がねじで係合し接続され、それぞれの前記ガイド筐体54の左側の前記ハウジング5の内に伝動筐体55が設置され、それぞれの前記伝動筐体の右側の内壁に第一段車551が回転し係合し接続され、それぞれの前記伝動筐体55の内底壁に右側の上部が前記第一段車551の左側の下部と噛合接続する第二段車552が設置され、左側の前記ガイド筐体54の下の前記ハウジング5の内に左右に伸びる駆動スライド筐体56が設置され、前記駆動スライド筐体56の左側の伸長部分が左側の前記伝動筐体55の下にあり、前記駆動スライド筐体56の右側の伸長部分が右側の前記伝動筐体55の下にあり、前記駆動スライド筐体56の内頂壁の真ん中にスライド溝57が設置され、前記駆動スライド筐体56の内に第二スライドブロック562が設置され、前記第二スライドブロック562の頂部の真ん中に上へ設置される第三スライドブロック563が固定に設置され、前記第三スライドブロック563の頂部の伸長部分が前記スライド溝57に挿入するかつスライドし係合し接続し、前記スライド溝57の内に左右に伸びるかつ前記第三スライドブロック563とねじで係合し接続する第二ねじボルト571が設置され、前記第二スライドブロック562の左右両側の頂部に支持レバー5621が固定に設置され、前記駆動スライド筐体56の内の前記第三スライドブロック563に主制御電機5631が設置され、前記主制御電機5631の左右両側にいずれも回転軸566が係合し接続され、前記調節柱63の頂部にスライド装置が設置される。 As shown in FIGS. 1 to 8, the intelligent textile winding equipment of the present invention includes a housing 5, and winding parts 6 that are attached to the end face of the top of the housing 5 and that are installed symmetrically. The wire part 6 includes a support column 61 installed on the left side, an adjustment column 63 installed on the right side, and a winding cylinder 7 installed between the support column 61 and the adjustment column. The guide housings 54 extending in the left-right direction are installed symmetrically, and through grooves 53 extending along the left and right sides of the top of the guide housing 54 are installed in communication with the tops of the respective guide housings 54. A guide groove 51 is installed in communication with the top of the extended portion on the right side of the through groove 53, and a first slide block 542 is slidably engaged with and connected to the inside of the guide housing 54. A protruding blower inserted into the through groove 53 on the left side of the top of the The first screw bolt 541 extending to the left and right is engaged with and connected to the first slide block 542 by a screw, and the transmission housing 55 is inserted into the housing 5 on the left side of each guide housing 54. The first stage wheel 551 is rotated and engaged with the inner wall on the right side of each of the transmission housings, and the upper part on the right side is connected to the inner bottom wall of each of the transmission housings 55. A second stage wheel 552 that meshes and connects with a lower portion on the left side of 551 is installed, and a drive slide housing 56 that extends to the left and right is installed in the housing 5 below the guide housing 54 on the left side. An extension part on the left side of the body 56 is under the transmission housing 55 on the left side, and an extension part on the right side of the drive slide housing 56 is under the transmission housing 55 on the right side. A slide groove 57 is installed in the middle of the inner top wall of the drive slide housing 56. The second slide block 562 is installed, and the third slide block 563 is fixedly installed in the middle of the top of the second slide block 562, and the extended portion of the top of the third slide block 563 is A second screw bolt 571 is installed which is inserted into the slide groove 57 and slidably engages and is connected, extends in the left and right in the slide groove 57 and engages and connects with the third slide block 563 with a screw, Support levers 5621 are fixedly installed at the tops of the left and right sides of the second slide block 562, and a main control electric machine 5331 is installed on the third slide block 563 in the drive slide casing 56. A rotating shaft 566 is engaged and connected to both the left and right sides, and a slide device is installed on the top of the adjustment column 63.

その中に、前記支持柱61の底部が前記ハウジング5の頂部の端面と固定に接続し、前記支持柱61の右側の端面に巻線電機62が設置され、前記巻線電機62の右端に前記支持柱61の右側の端面外に差し出る第一噛合部品64が係合し接続され、前記調節柱63の左側の端面に前記第一噛合部品64と相対する第二噛合部品65が回転し係合し接続され、これにより巻線筒7の固定な接続を実現する。 Among them, the bottom of the support column 61 is fixedly connected to the end surface of the top portion of the housing 5, a winding electric machine 62 is installed on the right end surface of the support column 61, and the winding electric machine 62 has the right end at the right end. A first meshing part 64 that protrudes outside the right end surface of the support column 61 is engaged and connected, and a second meshing part 65 facing the first meshing part 64 is rotated and engaged with the left end surface of the adjustment column 63. Thus, the fixed connection of the winding cylinder 7 is realized.

その中に、それぞれの前記ガイド溝51の右側の内壁に沈み溝52が設置され、前記沈み溝52の右側の内壁に左側に伸びるガイドレバー510が固定に設置され、前記ガイドレバー510の左側の伸長部分が前記ガイド溝51に挿入するかつ前記ガイド溝51の左側の内壁と固定に接続し、前記調節柱63の底部が前記ガイド溝51に通して前記通し溝53に挿入し、前記ガイド溝51にある前記調節柱63が前記ガイドレバー510とスライドし係合し接続し、前記調節柱63の右側の前記ガイドレバー510の外表面に圧縮ばね511が周設され、これにより調節柱63の左右指向スライド作動を実現し、巻線筒7の快速な取付けや解体を実現し、解体のスピードを高める。 Among them, a sink groove 52 is installed on the inner wall on the right side of each guide groove 51, and a guide lever 510 extending to the left is fixedly installed on the inner wall on the right side of the sink groove 52. An elongated portion is inserted into the guide groove 51 and fixedly connected to the inner wall on the left side of the guide groove 51, and the bottom of the adjustment column 63 is inserted into the through groove 53 through the guide groove 51, and the guide groove The adjusting column 63 at 51 is slidably engaged with and connected to the guide lever 510, and a compression spring 511 is provided around the outer surface of the guide lever 510 on the right side of the adjusting column 63. It realizes a left-right directional slide operation, realizes quick mounting and disassembly of the winding cylinder 7, and increases the speed of disassembly.

その中に、それぞれの前記第一ねじボルト541の左側の伸長部分がそれぞれの前記ガイド筐体54の左側の内壁を貫通するかつ回転し係合し接続され、前記第一ねじボルト541の左側の末端が前記伝動筐体55に挿入するかつ前記第一段車551の右端と固定に接続し、前記第一ねじボルト541の右端が前記伝動筐体55の右側の内壁と回転し係合し接続し、これにより第三段車561によって第一ねじボルト541を回転させることを実現する。 In it, the left extension of each of the first screw bolts 541 penetrates the left inner wall of each of the guide housings 54 and rotates and engages therewith. The distal end is inserted into the transmission housing 55 and fixedly connected to the right end of the first step wheel 551, and the right end of the first screw bolt 541 rotates and engages with the right inner wall of the transmission housing 55 for connection. Thus, it is realized that the first screw bolt 541 is rotated by the third step wheel 561.

その中に、前記第二ねじボルト571の左端が前記スライド溝57の左側の内壁と回転し係合し接続し、前記第二ねじボルト571の右端が切替駆動電機572と係合し接続し、前記切替駆動電機572の外表面が前記スライド溝57の右側の内壁に貫入するかつ固定に接続され、これにより左右切替調節を実現し、左右両側の巻線部品6の切替調節とコントロールを実現する。 Among them, the left end of the second screw bolt 571 rotates and engages with the left inner wall of the slide groove 57, and the right end of the second screw bolt 571 engages and connects with the switching drive electric machine 572, The outer surface of the switching drive electric machine 572 penetrates and is fixedly connected to the inner wall on the right side of the slide groove 57, thereby realizing left / right switching adjustment, and switching adjustment and control of the left and right winding parts 6 .

その中に、左側の前記伝動筐体55の下の前記駆動スライド筐体55の内頂壁と右側の前記伝動筐体55の下の前記駆動スライド筐体56の内頂壁にいずれも第三段車561が回転し係合し接続され、それぞれの前記第三段車561と前記第二段車552に伝動軸553が固定に設置され、左右両側の前記伝動軸553がそれぞれ左右両側の前記伝動筐体56と前記駆動スライド筐体56の間の前記ハウジング5の内壁体を貫通するかつ回転し係合し接続する。 Among them, both the inner top wall of the drive slide housing 55 under the transmission housing 55 on the left side and the inner top wall of the drive slide housing 56 under the transmission housing 55 on the right side are both third. Step gears 561 are rotated and engaged and connected, and transmission shafts 553 are fixedly installed on the third step wheel 561 and the second step wheel 552, respectively. The inner wall of the housing 5 between the transmission housing 56 and the drive slide housing 56 passes through, rotates, engages and connects.

その中に、左側の前記伝動軸566の左側の末端が左側の前記支持レバー5621と回転し係合し接続し、右側の前記伝動軸566の右側の末端が右側の前記支持レバー5621と回転し係合し接続し、左右両側の前記回転軸566の前記主制御電機5631から遠離する側に第四段車5661が円周方向に固定に設置され、これにより主制御電機5631によって第一ねじボルト541の伝動をコントロールし、設備投入を減少し、生産コストを下げてコストを維持する。 Among them, the left end of the left transmission shaft 566 rotates and engages with the left support lever 5621 and the right end of the right transmission shaft 566 rotates with the right support lever 5621. The fourth step wheel 5661 is fixedly fixed in the circumferential direction on the left and right sides of the rotary shaft 566 on the side far from the main control electric machine 5331, thereby the first screw bolt is fixed by the main control electric machine 5331. Control transmission of 541, reduce equipment input, lower production costs and maintain costs.

その中に、前記駆動スライド筐体56の左右両側の内壁に第一接触センサ564と第二接触センサ565がそれぞれ固定に設置され、前記第一接触センサ564が前記第二スライドブロック562に左側の端面と相対し、前記第二接触センサ565が前記第二スライドブロック562の右側の端面と相対し、前記第一接触センサ564が左側の前記巻線部品6にある前記巻線電機62と電気で接続し、前記第二接触センサ565が右側の前記巻線部品6の内の前記巻線電機62と電気で接続し、これにより知能コントロールを実現し、作動効率と安全性を高める。 Among them, a first contact sensor 564 and a second contact sensor 565 are fixedly installed on the inner walls on the left and right sides of the drive slide housing 56, respectively, and the first contact sensor 564 is attached to the second slide block 562 on the left side. The second contact sensor 565 is opposed to the right end surface of the second slide block 562, and the first contact sensor 564 is electrically connected to the winding electric machine 62 in the winding component 6 on the left side. The second contact sensor 565 is electrically connected to the winding electric machine 62 of the right side winding component 6, thereby realizing intelligent control and improving the operation efficiency and safety.

その中に、前記スライド装置がスライド輪632を含み、前記調節柱63の底部に第一スライド筐体631が設置され、前記スライド輪632が前記第一スライド筐体631の内に設置され、前記スライド輪632が前記通し溝53の内壁とスライドし係合し接続し、前記スライド装置を設置することで摩擦を減少できる。 Among them, the slide device includes a slide wheel 632, a first slide housing 631 is installed at the bottom of the adjustment column 63, the slide wheel 632 is installed in the first slide housing 631, The sliding wheel 632 slides and engages with the inner wall of the through-groove 53, and the friction can be reduced by installing the sliding device.

初期状態にある時、第三スライドブロック563がスライド溝57の内の真ん中に位置し、同時に第三スライドブロック563によって第二スライドブロック562を駆動スライド筐体56の内の真ん中に位置させ、この時に、第二スライドブロック562の左端と第一接触センサ564及び第二スライドブロック562の右端と第二接触センサ565が一定距離を保持するかつ二つの距離が同じく、同時に、それぞれのガイド筐体54の内にある第一スライドブロック542がいずれもガイド筐体54の内の一番左に位置し、この時に、左右両側の第一スライドブロック542によって左右両側の突出ブロック531をそれぞれ左右両側の通し溝53の内の一番左に位置させ、同時に、左右両側の巻線部品6の内の調節柱63がいずれも圧縮ばね511の圧力を受けてそれぞれ左右両側のガイド溝51の内の一番左位置に位置する。   When in the initial state, the third slide block 563 is located in the middle of the slide groove 57, and at the same time, the second slide block 562 is located in the middle of the drive slide housing 56 by the third slide block 563. Sometimes, the left end of the second slide block 562 and the first contact sensor 564 and the right end of the second slide block 562 and the second contact sensor 565 maintain a certain distance, and the two distances are the same at the same time. The first slide block 542 is located on the leftmost side of the guide housing 54. At this time, the left and right projecting blocks 531 are passed through the left and right sides by the first slide blocks 542 on both sides. At the same time, the adjustment pillars 63 in the winding parts 6 on both the left and right sides are both subjected to the pressure of the compression springs 511 and are respectively located in the guide grooves 51 on the left and right sides. Located in the left position.

左側の巻線部品6を変更する時、まずは切替駆動電機572によって第二ねじボルト571を回転させ、その上で第二ねじボルト571によって第三スライドブロック563を次第にスライド溝57の内の左側の方向に沿って移動させ、同時に、図2が示すように第三スライドブロック563がスライド溝57の内の一番左に着くまでに、第三スライドブロック563によって第二スライドブロック562を次第に駆動スライド筐体56の内の左側の方向に沿ってスライドさせ、同時に第三スライドブロック563によって第二スライドブロック562の左側の端面を第一接触センサ564と突き合わせ、この時に第一接触センサ564で信号を送信して左側の巻線部品6の内の巻線電機62の回転を停止させ、同時に、左側の回転軸566の上の第四段車5661が駆動スライド筐体56の内の左側の第三段車561と噛合接続し、この時に、第二スライドブロック562の右側の端面が最大限度に第二接触センサ565を遠離し、同時に、右側の回転軸566の上の第四段車5661が最大限度に駆動スライド筐体56の内の右側の第三段車561を遠離し、それから切替駆動電機572の回転を停止し、この時に、主制御電機5631によって両側の回転軸566を回転させ、左側の回転軸566の上の第四段車5661が駆動スライド筐体56の内の左側の第三段車561と噛合接続するため、左側の回転軸566上の第四段車5661によって駆動スライド筐体56の内の左側の第三段車561を回転させ、駆動スライド筐体56の内の左側の第三段車561によって左側の第三段車561の頂部の伝動軸553を回転させ、その上で左側の伝動軸553によって左側の伝動筐体55の内の第二段車552を回転させ、第二段車552と第一段車551が噛合接続し、その上で左側の伝動軸55の内の第一段車551によって左側のガイド筐体54の内の第一スライドブロック542を次第に左側のガイド筐体54の内の右側の方向に沿って移動させ、同時に左側のガイド筐体54の内の第一スライドブロック542によって左側のガイド筐体54の内の第一スライドブロック542の頂部の突出ブロック531を次第に左側の通し溝53の内の右側の方向に沿って移動させ、図3が示すように左側の通し溝53の内の突出ブロック531を左側の巻線部品6の内の調節柱63の底部部分の左側の端面と突き合わせる時、継続して主制御電機5631によって両側の回転軸566を回転させ、左側のガイド筐体54の内の第一スライドブロック542の頂部の突出ブロック531によって左側の巻線部品6の内の調節柱63を圧縮ばね511に抵抗して次第に左側のガイド溝51の内のガイドレバー510の右側の方向に沿って移動させ、図4が示すように左側の巻線部品6の内の調節柱63が左側のガイド溝51の内の一番右に着く時に、これにより左側の巻線部品6の内の巻線筒7の解体を実現する。 When changing the left winding component 6, first, the second screw bolt 571 is rotated by the switching drive electric machine 572, and then the third slide block 563 is gradually moved to the left side of the slide groove 57 by the second screw bolt 571. At the same time, the second slide block 562 is gradually driven by the third slide block 563 until the third slide block 563 reaches the leftmost of the slide grooves 57 as shown in FIG. Slide along the left side of the housing 56, and at the same time, the third slide block 563 brings the left end face of the second slide block 562 into contact with the first contact sensor 564. At this time, the first contact sensor 564 sends a signal. And the rotation of the winding electric machine 62 in the left winding component 6 is stopped, and at the same time, the fourth step wheel 5661 on the left rotating shaft 566 is moved to the left third in the drive slide housing 56. Biting with corrugated car 561 At this time, the right end surface of the second slide block 562 is far from the second contact sensor 565 to the maximum extent, and at the same time, the fourth stage car 5661 on the right rotating shaft 566 is at the maximum drive slide housing. The third stage 561 on the right side of the body 56 is moved away, and then the rotation of the switching drive electric machine 572 is stopped. At this time, the main control electric machine 5631 rotates the rotary shafts 566 on both sides, and the left rotary shaft 566 Since the upper fourth step wheel 5661 is meshed with the left third step wheel 561 in the drive slide housing 56, the fourth step wheel 5661 on the left rotation shaft 566 is moved by the fourth step wheel 5661 in the drive slide housing 56. The left third gear 561 is rotated, the left third gear 561 in the drive slide housing 56 is rotated on the top transmission shaft 553 of the left third gear 561, and then the left transmission The second stage wheel 552 in the transmission housing 55 on the left side is rotated by the shaft 553, and the second stage wheel 552 and the first stage wheel 551 are meshed and connected. The first slide block 542 in the left guide housing 54 is gradually moved along the right direction in the left guide housing 54 by the first step wheel 551 in the left transmission shaft 55. At the same time, the first slide block 542 in the left guide housing 54 causes the projecting block 531 at the top of the first slide block 542 in the left guide housing 54 to gradually move to the right in the left through groove 53. As shown in FIG. 3, it continues when the protruding block 531 in the left through groove 53 is abutted with the left end face of the bottom portion of the adjustment column 63 in the left winding part 6. The rotating shaft 566 on both sides is rotated by the main control electric machine 5331, and the adjustment column 63 in the left winding part 6 is compressed by the protruding block 531 at the top of the first slide block 542 in the left guide housing 54. The guide lever in the left guide groove 51 gradually resists the spring 511. -When the adjustment pillar 63 in the left winding part 6 reaches the rightmost in the left guide groove 51 as shown in FIG. Dismantling of the winding cylinder 7 in the winding component 6 is realized.

右側の巻線部品6を分解また変更する時に、まずは切替駆動電機572によって第二ねじボルトを反対方向へ回転させ、その上で第二ねじボルト571によって第三スライドブロック563を次第にスライド溝57の内の右側の方向に沿って移動させ、同時に、第三スライドブロック563によって第二スライドブロック562を次第に駆動スライド筐体56の内の右側の方向へスライドさせ、図5が示すように第三スライドブロック563がスライド溝57の内の一番右に着いた同時に、第三スライドブロック563によって第二スライドブロック562の右側の端面を第二接触センサ565と突き合わせ、この時に、第二接触センサ565によって信号を送信して右側の巻線部品6の内の巻線電機62の回転を停止し、同時に右側の回転軸566上の第四段車5661と駆動スライド筐体56の内の右側の第三段車561と噛合接続し、この時に、第二スライドブロック562の左側の端面が最大限度に第1接触センサ564を遠離し、同時に、左側の回転軸566上の第四段車5661が駆動スライド筐体56の内の左側の第三段車561から最大限度に遠離し、それから切替駆動電機572の回転を停止し、この時に、主制御電機5631によって両側の回転軸566を回転させ、右側の回転軸566上の第四段車5661と駆動スライド筐体56の内の右側の第三段車561と噛合接続し、その上で右側の回転軸566上の第四段車5661によって駆動スライド筐体56の内の右側の第三段車561を回転させ、駆動スライド筐体56の内の右側の第三段車561によって右側の第三段車561の頂部の回転軸553を回転させ、その上で右側の回転軸553によって右側の伝動筐体55の内の第二段車552を回転させ、第二段車552と第一段車551が噛合接続するため、右側の伝動筐体55の内の第一段車551によって右側のガイド筐体54の内の第一スライドブロック542を次第に右側のガイド筐体54の内の右側の方向に沿って移動させ、同時に右側のガイド筐体54の内の第一スライドブロック542によって右側のガイド筐体54の内の第一スライドブロック542の頂部の突出ブロック531を次第に右側の通し溝53の内の右側の方向に沿って移動させ、図6が示すように右側の通し溝53の内の突出ブロック531を右側の巻線部品6の内の調節柱63の底部部分の左側の端面と突き合わせ、この時に継続して主制御電機5631によって両側の回転軸566を回転させ、右側のガイド筐体54の内の第一スライドブロック542の頂部の突出ブロック531によって右側の巻線部品6の内の調節柱63を圧縮ばね511に抵抗して次第に右側のガイド溝51の内のガイドレバー510の右側の方向に沿って移動させ、図7が示すように右側の巻線部品6の内の調節柱63が右側のガイド溝51の内の一番右に着いた時に、これにより右側の巻線部品6の内の巻線筒7の分解を実現する。 When disassembling or changing the right-hand winding component 6, first the second screw bolt is rotated in the opposite direction by the switching drive electric machine 572, and then the third slide block 563 is gradually moved to the slide groove 57 by the second screw bolt 571. At the same time, the second slide block 562 is gradually slid by the third slide block 563 in the right direction of the drive slide housing 56, and the third slide as shown in FIG. At the same time that the block 563 arrives at the rightmost position in the slide groove 57, the right end surface of the second slide block 562 is brought into contact with the second contact sensor 565 by the third slide block 563, and at this time, the second contact sensor 565 A signal is transmitted to stop the rotation of the winding electric machine 62 in the right winding component 6, and at the same time, the fourth stage wheel 5661 on the right rotating shaft 566 and the third right wheel in the drive slide housing 56 At this time, the left end surface of the second slide block 562 is far away from the first contact sensor 564 as much as possible, and at the same time, the fourth step wheel 5661 on the left rotation shaft 566 is driven to the drive slide housing. It is farthest from the left third stage car 561 in the body 56, and then the rotation of the switching drive electric machine 572 is stopped. At this time, the main control electric machine 5561 rotates the rotary shafts 566 on both sides, and the right rotation The fourth stage wheel 5661 on the shaft 566 and the right third wheel 561 in the driving slide casing 56 are meshed and connected, and the fourth stage wheel 5661 on the right rotating shaft 566 is then driven by the fourth stage wheel 5661 on the right rotating shaft 566 The right third stage 561 in 56 is rotated, and the rotation shaft 553 at the top of the right third stage 561 is rotated by the right third stage 561 in the drive slide housing 56, and above that The second stage wheel 552 in the right transmission housing 55 is rotated by the right side rotation shaft 553, and the second stage wheel 552 and the first stage wheel 551 are engaged with each other. In order to connect, the first stage block 551 in the right transmission housing 55 gradually moves the first slide block 542 in the right guide housing 54 along the right direction in the right guide housing 54. At the same time, the first slide block 542 in the right guide housing 54 moves the protruding block 531 at the top of the first slide block 542 in the right guide housing 54 gradually to the right in the right through groove 53. 6, as shown in FIG. 6, the protruding block 531 in the right through groove 53 is brought into contact with the left end surface of the bottom portion of the adjustment column 63 in the right winding part 6, and at this time The main control electric machine 5331 continues to rotate the rotary shafts 566 on both sides, and the protruding block 531 on the top of the first slide block 542 in the right guide housing 54 adjusts the adjustment pillar 63 in the right winding component 6. The resistance of the compression spring 511 and gradually the right guide groove 51 When the adjustment pillar 63 in the right winding part 6 reaches the rightmost in the right guide groove 51, as shown in FIG. Thus, disassembly of the winding cylinder 7 in the right winding component 6 is realized.

Claims (1)

知能紡織巻線設備は、ハウジングと、前記ハウジングの頂部の端面に取付けられるかつ左右対称に設置される巻線部品を含み、それぞれの前記巻線部品が左側に設置される支持柱、右側に設置される調節柱及び前記支持柱と前記調節柱の間に設置される巻線筒を含み、前記ハウジングの内に左右に伸びるガイド筐体が左右対称に設置され、それぞれのガイド筐体の頂部に前記ガイド筐体の頂部の左右両側に沿って伸びる通し溝が連通し合って設置され、それぞれの前記通し溝の右側の伸長部分の頂部にガイド溝が連通し合って設置され、前記ガイド筐体の内に第一スライドブロックがスライドし係合し接続され、前記第一スライドブロックの頂部の左側に前記通し溝に挿入する突出ブロックが設置され、前記第一スライドブロックに左右に伸びる第一ねじボルトがねじで係合し接続され、それぞれの前記ガイド筐体の左側の前記ハウジングの内に伝動筐体が設置され、それぞれの前記伝動筐体の右側の内壁に第一段車が回転し係合し接続され、それぞれの前記伝動筐体の内底壁に右側の上部が前記第一段車の左側の下部と噛合接続する第二段車が設置され、左側の前記ガイド筐体の下の前記ハウジングの内に左右に伸びる駆動スライド筐体が設置され、前記駆動スライド筐体の左側の伸長部分が左側の前記伝動筐体の下にあり、前記駆動スライド筐体の右側の伸長部分が右側の前記伝動筐体の下にあり、前記駆動スライド筐体の内頂壁の真ん中にスライド溝が設置され、前記駆動スライド筐体の内に第二スライドブロックが設置され、前記第二スライドブロックの頂部の真ん中に上へ設置される第三スライドブロックが固定に設置され、前記第三スライドブロックの頂部の伸長部分が前記スライド溝に挿入するかつスライドし係合し接続し、前記スライド溝の内に左右に伸びるかつ前記第三スライドブロックとねじで係合し接続する第二ねじボルトが設置され、前記第二スライドブロックの左右両側の頂部に支持レバーが固定に設置され、前記駆動スライド筐体の内の前記第三スライドブロックに主制御電機が設置され、前記主制御電機の左右両側にいずれも回転軸が係合し接続され、前記調節柱の頂部にスライド装置が設置され、前記支持柱の底部が前記ハウジングの頂部の端面と固定に接続し、前記支持柱の右側の端面に巻線電機が設置され、前記巻線電機の右端に前記支持柱の右側の端面外に差し出る第一噛合部品が係合し接続され、前記調節柱の左側の端面に前記第一噛合部品と相対する第二噛合部品が回転し係合し接続され、それぞれの前記ガイド溝の右側の内壁に沈み溝が設置され、前記沈み溝の右側の内壁に左側に伸びるガイドレバーが固定に設置され、前記ガイドレバーの左側の伸長部分が前記ガイド溝に挿入するかつ前記ガイド溝の左側の内壁と固定に接続し、前記調節柱の底部が前記ガイド溝に通して前記通し溝に挿入し、前記ガイド溝にある前記調節柱が前記ガイドレバーとスライドし係合し接続し、前記調節柱の右側の前記ガイドレバーの外表面に圧縮ばねが周設され、それぞれの前記第一ねじボルトの左側の伸長部分がそれぞれの前記ガイド筐体の左側の内壁を貫通するかつ回転し係合し接続され、前記第一ねじボルトの左側の末端が前記伝動筐体に挿入するかつ前記第一段車の右端と固定に接続し、前記第一ねじボルトの右端が前記伝動筐体の右側の内壁と回転し係合し接続し、前記第二ねじボルトの左端が前記スライド溝の左側の内壁と回転し係合し接続し、前記第二ねじボルトの右端が切替駆動電機と係合し接続し、前記切替駆動電機の外表面が前記スライド溝の右側の内壁に貫入するかつ固定に接続され、左側の前記伝動筐体の下の前記駆動スライド筐体の内頂壁と右側の前記伝動筐体の下の前記駆動スライド筐体の内頂壁にいずれも第三段車が回転し係合し接続され、それぞれの前記第三段車と前記第二段車に伝動軸が固定に設置され、左右両側の前記伝動軸がそれぞれ左右両側の前記伝動筐体と前記駆動スライド筐体の間の前記ハウジングの内壁体を貫通するかつ回転し係合し接続し、左側の前記伝動軸の左側の末端が左側の前記支持レバーと回転し係合し接続し、右側の前記伝動軸の右側の末端が右側の前記支持レバーと回転し係合し接続し、左右両側の前記回転軸の前記主制御電機から遠離する側に第四段車が円周方向に固定に設置され、前記駆動スライド筐体の左右両側の内壁に第一接触センサと第二接触センサがそれぞれ固定に設置され、前記第一接触センサが前記第二スライドブロックに左側の端面と相対し、前記第二接触センサが前記第二スライドブロックの右側の端面と相対し、前記第一接触センサが左側の前記巻線部品にある前記巻線電機と電気で接続し、前記第二接触センサが右側の前記巻線部品の内の前記巻線電機と電気で接続し、前記スライド装置がスライド輪を含み、前記調節柱の底部に第一スライド筐体が設置され、前記スライド輪が前記第一スライド筐体の内に設置され、前記スライド輪が前記通し溝の内壁とスライドし係合し接続する。   The intelligent textile winding equipment includes a housing and winding parts that are attached to the end face of the top of the housing and are symmetrically installed. The guide column extending between the right and left sides of the housing is symmetrically installed on the top of each guide housing. A through groove extending along the left and right sides of the top portion of the guide housing is installed in communication with each other, and a guide groove is installed in communication with a top portion of the right extension portion of each through groove, and the guide housing is installed. The first slide block is slid and engaged and connected, and a protruding block to be inserted into the through groove is installed on the left side of the top of the first slide block, and extends to the left and right on the first slide block. A first screw bolt is engaged and connected by a screw, a transmission housing is installed in the housing on the left side of each of the guide housings, and a first step car is mounted on an inner wall on the right side of each of the transmission housings. Are connected to each other, and a second stage car is installed on the inner bottom wall of each of the transmission casings, with the upper right side engaged with the lower part on the left side of the first stage car. A drive slide housing extending left and right is installed in the housing under the body, and an extended portion on the left side of the drive slide housing is under the transmission housing on the left side. The extension part is under the transmission housing on the right side, a slide groove is installed in the middle of the inner top wall of the drive slide housing, a second slide block is installed in the drive slide housing, Up in the middle of the top of the two slide block A third slide block to be installed is fixedly installed, and an extended portion of the top of the third slide block is inserted into the slide groove and slidably engaged with and connected to the slide groove. Second screw bolts that engage and connect with the third slide block by screws are installed, and support levers are fixedly installed at the tops of the left and right sides of the second slide block. A main control electric machine is installed on the slide block, a rotating shaft is engaged and connected to both the left and right sides of the main control electric machine, a slide device is installed on the top of the adjustment column, and the bottom of the support column is connected to the housing. A winding electric machine is connected to the top end face and fixed, and a winding electric machine is installed on the right end face of the support pillar, and a first meshing component that protrudes out of the right end face of the support pillar at the right end of the winding electric pole is The second engaging part opposite to the first engaging part rotates and is connected to the left end face of the adjustment column, and the sinking groove is provided on the right inner wall of each guide groove. A guide lever extending to the left is fixedly installed on the inner wall on the right side of the sinking groove, and an extension part on the left side of the guide lever is inserted into the guide groove and fixedly connected to the inner wall on the left side of the guide groove, The bottom of the adjustment column is inserted into the through groove through the guide groove, the adjustment column in the guide groove is slidably engaged with and connected to the guide lever, and the outer side of the guide lever on the right side of the adjustment column A compression spring is provided around the surface, and an extension part on the left side of each of the first screw bolts penetrates and rotates and is connected to a left inner wall of each of the guide housings. The left end is Inserted into the transmission housing and fixedly connected to the right end of the first car, the right end of the first screw bolt rotates and engages with the right inner wall of the transmission housing, and the second screw The left end of the bolt rotates and engages and connects with the left inner wall of the slide groove, the right end of the second screw bolt engages and connects with the switching drive electric machine, and the outer surface of the switching drive electric machine is connected to the slide groove It penetrates into the right inner wall and is fixedly connected to the inner top wall of the drive slide housing under the left transmission housing and the inner top wall of the drive slide housing under the right transmission housing. In both cases, the third gear is rotated and engaged and connected, the transmission shafts are fixedly installed on the third gear and the second gear, respectively, and the transmission shafts on the left and right sides are the transmission on the left and right sides, respectively. Does it penetrate the inner wall of the housing between the housing and the drive slide housing? Rotate, engage and connect, the left end of the left transmission shaft rotates and engages with the left support lever, and the right end of the right transmission shaft rotates with the right support lever. Engaged and connected, a fourth step wheel is fixedly installed in the circumferential direction on the side of the rotary shaft on both the left and right sides away from the main control electric machine, and the first contact with the inner walls on the left and right sides of the drive slide housing A sensor and a second contact sensor are fixedly installed, the first contact sensor is opposed to the left end surface of the second slide block, and the second contact sensor is opposed to the right end surface of the second slide block. The first contact sensor is electrically connected to the winding electrical machine in the winding part on the left side, and the second contact sensor is electrically connected to the winding electrical machine in the winding part on the right side, The slide device includes a slide wheel and the adjustment A first slide housing is installed at the bottom of the column, the slide wheel is installed in the first slide housing, and the slide wheel slides into engagement with and connects to the inner wall of the through groove.
JP2018117486A 2017-06-20 2018-06-20 Intelligent spinning winding equipment Pending JP2019006606A (en)

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CN110217645A (en) * 2019-07-17 2019-09-10 高特(江苏)新材料有限公司 A kind of bobbin winder device of diamond wire production
CN110436262A (en) * 2019-08-14 2019-11-12 吴江市布步高纺织整理有限公司 Top grade twists fire-retardant chemical fiber wire production and uses winding device
CN110733931A (en) * 2019-11-18 2020-01-31 湖南湘鹤集团电缆科技股份有限公司 even winding device for producing vertical shaft cable
CN110871333A (en) * 2019-12-31 2020-03-10 上海促昂信息科技中心 Steel wire output device for welding lampshade framework
JP2020114321A (en) * 2019-01-18 2020-07-30 株式会社大一商会 Game machine
JP2020114325A (en) * 2019-01-18 2020-07-30 株式会社大一商会 Game machine
JP2020114324A (en) * 2019-01-18 2020-07-30 株式会社大一商会 Game machine
CN111634722A (en) * 2020-06-16 2020-09-08 江苏兴安机械有限公司 Tension-free material storage mechanism of spreading machine
CN112660910A (en) * 2020-12-28 2021-04-16 浙江纺织服装职业技术学院 High-applicability quick thread changing device for textile machinery
CN113247703A (en) * 2021-05-13 2021-08-13 安徽持质恒智能设备有限公司 Control system for automatic winding of electric wires and cables
CN113373530A (en) * 2021-06-17 2021-09-10 闽江学院 Traction device capable of ensuring burr-free electrostatic spinning
CN113860061A (en) * 2021-11-03 2021-12-31 欧耐特线缆集团有限公司 Paying-off device and method for green and environment-friendly cable production
CN114635204A (en) * 2022-01-25 2022-06-17 苏州市星京泽纤维科技有限公司 Preparation facilities is used in vortex spun core-spun yarn production
CN114657669A (en) * 2022-03-28 2022-06-24 杭州永昌锦纶有限公司 Composite high-strength fiber production system based on chinlon of various specifications and control method
CN118125223A (en) * 2024-05-07 2024-06-04 盐城东明纺织有限公司 Textile yarn winding device

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CN115440532B (en) * 2022-10-09 2024-08-27 国网山东省电力公司淄博供电公司 Wen Kaige type knife switch with static contact insulating sheath

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JPH10338420A (en) * 1997-06-09 1998-12-22 Hitachi Constr Mach Co Ltd Rotational supporting device for barrel winding drum
US6481661B1 (en) * 1998-11-12 2002-11-19 Nextrom Holding S.A. Arrangement for winding cables or the like
CN106006191A (en) * 2016-06-30 2016-10-12 繁昌县若木营造装饰工程有限公司 Efficient winding device capable of simultaneously winding multiple construction wires
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Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2020114321A (en) * 2019-01-18 2020-07-30 株式会社大一商会 Game machine
JP2020114325A (en) * 2019-01-18 2020-07-30 株式会社大一商会 Game machine
JP2020114324A (en) * 2019-01-18 2020-07-30 株式会社大一商会 Game machine
CN110217645A (en) * 2019-07-17 2019-09-10 高特(江苏)新材料有限公司 A kind of bobbin winder device of diamond wire production
CN110436262A (en) * 2019-08-14 2019-11-12 吴江市布步高纺织整理有限公司 Top grade twists fire-retardant chemical fiber wire production and uses winding device
CN110733931A (en) * 2019-11-18 2020-01-31 湖南湘鹤集团电缆科技股份有限公司 even winding device for producing vertical shaft cable
CN110871333A (en) * 2019-12-31 2020-03-10 上海促昂信息科技中心 Steel wire output device for welding lampshade framework
CN111634722A (en) * 2020-06-16 2020-09-08 江苏兴安机械有限公司 Tension-free material storage mechanism of spreading machine
CN112660910A (en) * 2020-12-28 2021-04-16 浙江纺织服装职业技术学院 High-applicability quick thread changing device for textile machinery
CN113247703A (en) * 2021-05-13 2021-08-13 安徽持质恒智能设备有限公司 Control system for automatic winding of electric wires and cables
CN113373530A (en) * 2021-06-17 2021-09-10 闽江学院 Traction device capable of ensuring burr-free electrostatic spinning
CN113860061A (en) * 2021-11-03 2021-12-31 欧耐特线缆集团有限公司 Paying-off device and method for green and environment-friendly cable production
CN114635204A (en) * 2022-01-25 2022-06-17 苏州市星京泽纤维科技有限公司 Preparation facilities is used in vortex spun core-spun yarn production
CN114635204B (en) * 2022-01-25 2022-11-25 苏州市星京泽纤维科技有限公司 Preparation facilities is used in vortex spun covering yarn production
CN114657669A (en) * 2022-03-28 2022-06-24 杭州永昌锦纶有限公司 Composite high-strength fiber production system based on chinlon of various specifications and control method
CN118125223A (en) * 2024-05-07 2024-06-04 盐城东明纺织有限公司 Textile yarn winding device

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