JP3374942B2 - Transfer direction changing mechanism for belt-shaped plate - Google Patents
Transfer direction changing mechanism for belt-shaped plateInfo
- Publication number
- JP3374942B2 JP3374942B2 JP07694994A JP7694994A JP3374942B2 JP 3374942 B2 JP3374942 B2 JP 3374942B2 JP 07694994 A JP07694994 A JP 07694994A JP 7694994 A JP7694994 A JP 7694994A JP 3374942 B2 JP3374942 B2 JP 3374942B2
- Authority
- JP
- Japan
- Prior art keywords
- path
- guide cylinder
- virtual guide
- strip
- output
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Registering, Tensioning, Guiding Webs, And Rollers Therefor (AREA)
- Controlling Rewinding, Feeding, Winding, Or Abnormalities Of Webs (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、電縫管製造プラント等
において、鋼板ストリップを各加工装置間で搬送した
り、その他に帯状板を各装置の間で連続的に搬送する際
に、方向変換の為に使用する帯状板の搬送方向変換機構
に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a direction in which a steel strip is conveyed between processing devices in an electric resistance welded pipe manufacturing plant or the like, or a strip is continuously conveyed between the devices. The present invention relates to a mechanism for converting the conveyance direction of a strip plate used for conversion.
【0002】[0002]
【従来の技術】従来から帯状板の搬送方向変換機構は、
長いスパンの間に、ローラーの方向を徐々に変更して、
無理やりに帯状板の搬送方向を変更する機構が取られて
いた。また、帯状板の滞留機構から、帯状板を取り出す
為のアーバーとして、特開昭59−198246号公報
に記載の如き技術が公知とされている。2. Description of the Related Art Conventionally, a transfer direction changing mechanism for a strip plate has been
Over a long span, gradually change the direction of the rollers,
A mechanism for forcibly changing the conveying direction of the strip was used. Further, as an arbor for taking out the strip-shaped plate from the retention mechanism of the strip-shaped plate, a technique described in JP-A-59-198246 is known.
【0003】[0003]
【発明が解決しようとする課題】本発明は、従来の様に
ストリップアキュムレータから、帯状板を取り出す為の
方向変換ではなくて、90度または180度の転換した
方向に帯状板を搬送する為に必要な帯状板の搬送方向変
換機構を提供するものである。そして、該90度又は1
80度の帯状板Sの方向転換を、帯状板を無理やりに撓
ませることなく、また長い距離を必要とせずに、短距離
の間に方向転換を可能とし、かつ工場内において、オペ
レーターが通過する通路も構成できるように構成したの
である。SUMMARY OF THE INVENTION The present invention is intended to convey a strip plate in a 90 ° or 180 ° transformed direction, rather than the conventional direction change for taking out the strip plate from the strip accumulator. The present invention provides a necessary belt-board conveying direction changing mechanism. And the 90 degrees or 1
The direction change of the strip S of 80 degrees can be made in a short distance without forcibly bending the strip and without requiring a long distance, and the operator can pass through in the factory. It was constructed so that the passage could also be constructed.
【0004】[0004]
【課題を解決するための手段】本発明が解決しようとす
る課題は以上の如くであり、次に該課題を解決するため
の手段を説明する。請求項1においては、帯状板Sを搬
送する帯状板搬送経路の途中に、該帯状板Sの搬送平面
と平行する軸心を具備した仮想ガイド筒1を配置し、該
仮想ガイド筒1の軸心O−Oに対して、45度の角度方
向から、仮想ガイド筒1の外周接線面の方向にそって入
力搬送経路Bを配置し、該入力搬送経路Bが仮想ガイド
筒1の外周に接触した位置から、仮想ガイド筒1の外周
に沿った円周搬送経路Aを構成し、仮想ガイド筒1の下
面から入力搬送経路Bと平行する外周接線面に沿って、
軸心O−Oと45度の方向に出力搬送経路Cを構成し、
帯状板Sを平行状態の異なる面上で90度だけ搬送方向
を変換し、更に、前記仮想ガイド筒1の軸心O−Oと9
0度の角度で交叉する軸心P−Pの仮想ガイド筒2を配
置し、該仮想ガイド筒2に外周に前記出力搬送経路Cを
入力し、仮想ガイド筒2の外周の円周搬送経路Dを経
て、前記入力搬送経路Bと平行した平面方向の逆転出力
搬送経路Eに連結した構成において、前記出力搬送経路
Cを、入力搬送経路B及び逆転出力搬送経路Eよりも低
い位置として、該出力搬送経路Cの上に通路鉄板4を付
設し 通路を構成したものである。The problems to be solved by the present invention are as described above. Next, the means for solving the problems will be described. In claim 1, a virtual guide cylinder 1 having an axial center parallel to the transport plane of the strip S is arranged in the middle of the strip transport path for transporting the strip S, and the axis of the virtual guide 1 is arranged. The input transport path B is arranged along the direction of the outer peripheral tangent surface of the virtual guide cylinder 1 from the angle direction of 45 degrees with respect to the center O-O, and the input transport path B contacts the outer circumference of the virtual guide cylinder 1. From this position, a circumferential conveyance path A is formed along the outer circumference of the virtual guide cylinder 1, and from the lower surface of the virtual guide cylinder 1 along an outer circumference tangential surface parallel to the input conveyance path B,
The output conveyance path C is formed in the direction of 45 degrees with the axis O-O,
The conveyance direction of the strip-shaped plate S is changed by 90 degrees on different planes, and the axes O-O and 9 of the virtual guide cylinder 1 are further changed.
The virtual guide tube 2 with the axis P-P intersecting at an angle of 0 degree is arranged.
The output guide path C on the outer periphery of the virtual guide cylinder 2.
Input, and go through the circumferential conveyance path D on the outer circumference of the virtual guide tube 2.
And the reverse output in the plane direction parallel to the input conveyance path B.
In the configuration connected to the conveyance path E, the output conveyance path
C is lower than the input transport path B and the reverse output transport path E.
The passage iron plate 4 on the output conveyance path C as a new position.
It is the one that established the passage .
【0005】請求項2においては、請求項1記載の帯状
板の搬送方向変換機構において、出力搬送経路Cの部分
だけは、床下を通過させたものである。According to a second aspect, the strip shape according to the first aspect
A portion of the output conveyance path C in the plate conveyance direction conversion mechanism
Only the ones passed under the floor .
【0006】[0006]
【作用】次に作用を説明する。請求項1では、電縫管の
製造プラント等で、各単位装置を直線的に長く配置する
ことが出来ない場合に、本発明の帯状板の搬送方向変換
機構により、工場の隅の部分で向きを変えることができ
るので、プラントの単位装置のレイアウトの配置設計が
楽になる。[Operation] Next, the operation will be described. According to the first aspect of the present invention, in a plant for manufacturing electric resistance welded pipes and the like, when the unit devices cannot be linearly arranged long, the strip-shaped plate conveying direction changing mechanism of the present invention is used to orient at a corner portion of a factory. Can be changed, which facilitates layout design of the unit device of the plant.
【0007】また、帯状板Sが通過するプラントの経路
において、出力搬送経路Cを、入力搬送経路B及び逆転
出力搬送経路Eよりも低い位置として、該出力搬送経路
Cの上に通路鉄板4を付設し通路を構成したので、出力
搬送経路Cの部分だけを、オペレーターが、前後に平行
に配置したラインの鉄板の上を、ウォークスルーするこ
とが可能となったのである。In the plant path through which the strips S pass, the output carrier path C is located at a position lower than the input carrier path B and the reverse output carrier path E, and the path iron plate 4 is placed on the output carrier path C. Since the passage is additionally provided, the operator can walk through only the portion of the output conveyance path C on the iron plates of the lines arranged in parallel in the front and rear.
【0008】請求項2においては、床下に通過させるこ
とが出来るので、オペレーターが、前後に平行に配置し
たラインの間を、ウォークスルーすることが可能とな
り、作業の効率が向上した。According to the second aspect of the present invention, since it can be passed under the floor, the operator can walk through the lines arranged in parallel in the front and rear, and the work efficiency is improved.
【0009】[0009]
【実施例】次に実施例を説明する。図1は本発明の帯状
板の搬送方向変換機構の平面図、図2は同じく本発明の
帯状板の搬送方向変換機構の正面図、図3は同じく本発
明の帯状板の搬送方向変換機構の右側面図、図4は仮想
ガイド筒1と入力搬送経路Bと円周搬送経路Aと出力搬
送経路Cとの位置関係を示す平面模式図、図5はローラ
ー5の円弧状外形を示す正面図、図6は仮想ガイド筒2
の外周に配置したローラー5の列を示す斜視図、図7は
仮想ガイド筒1の内側を示す斜視図、図8は仮想ガイド
筒2の内側を示す斜視図である。EXAMPLES Next, examples will be described. FIG. 1 is a plan view of a belt-shaped plate conveying direction changing mechanism, FIG. 2 is a front view of a belt-shaped plate conveying direction changing mechanism of the present invention, and FIG. 3 is a band-shaped plate conveying direction changing mechanism of the present invention. FIG. 4 is a right side view, FIG. 4 is a schematic plan view showing the positional relationship among the virtual guide cylinder 1, the input transport path B, the circumferential transport path A, and the output transport path C, and FIG. 5 is a front view showing the arcuate outer shape of the roller 5. 6 is a virtual guide tube 2
8 is a perspective view showing a row of rollers 5 arranged on the outer periphery of FIG. 7, FIG. 7 is a perspective view showing the inside of the virtual guide cylinder 1, and FIG. 8 is a perspective view showing the inside of the virtual guide cylinder 2.
【0010】図1と図2と図3において説明する。該図
面においては、入力搬送経路Bから帯状板Sを搬入し
て、逆転出力搬送経路Eの部分から逆向きに同じ平面
で、平行経路を搬出している。即ち、入力搬送経路Bか
ら、仮想ガイド筒1の外周に構成した円周搬送経路Aを
通過し、下方の出力搬送経路Cを経て、仮想ガイド筒2
の外周に構成された円周搬送経路Dを経て、逆転出力搬
送経路Eから出て行くのである。This will be described with reference to FIGS. 1, 2 and 3. In the figure, the strip-shaped plate S is carried in from the input conveyance path B, and the parallel path is carried out in the same plane in the opposite direction from the reverse output conveyance path E. That is, the virtual guide tube 2 passes from the input transfer path B through the circumferential transfer path A formed on the outer circumference of the virtual guide tube 1, and through the output transfer path C below.
It goes out from the reverse rotation output conveyance path E via the circumferential conveyance path D formed on the outer periphery of the.
【0011】図3において示す如く、側面から見た場合
に、入力搬送経路Bと逆転出力搬送経路Eの通過する平
面と、出力搬送経路Cの通過する平面との間には、間隔
Tが構成され、該間隔Tは仮想ガイド筒2の直径と、該
仮想ガイド筒2の外周に支持したローラー5の外周位置
とを附加した距離となっている。As shown in FIG. 3, when viewed from the side, a space T is formed between the plane through which the input transport path B and the reverse output transport path E pass and the plane through which the output transport path C passes. The distance T is a distance obtained by adding the diameter of the virtual guide cylinder 2 and the outer peripheral position of the roller 5 supported on the outer periphery of the virtual guide cylinder 2.
【0012】図1に示す如く、仮想ガイド筒1と仮想ガ
イド筒2は、筒の全体が構成配置されているわけではな
くて、ローラー5が配置されている部分のみの円筒部分
のみが円弧面として残され、その他の部分は省略した構
成としている。そして、入力搬送経路Bと出力搬送経路
Cとは、90度の角度を構成しており、軸心O−Oと、
軸心P−Pとが90度の角度で交わった状態が図示され
ている。As shown in FIG. 1, the virtual guide cylinder 1 and the virtual guide cylinder 2 do not constitute the entire cylinder, but only the cylindrical portion where the roller 5 is arranged has an arc surface. , And other parts are omitted. The input transport path B and the output transport path C form an angle of 90 degrees, and the axis O-O
The state where the axis P-P intersects at an angle of 90 degrees is illustrated.
【0013】そして、該入力搬送経路Bと円周搬送経路
Aと出力搬送経路Cを付設した仮想ガイド筒1と、左右
対称に、仮想ガイド筒2を配置し、該仮想ガイド筒2に
も、出力搬送経路Cと円周搬送経路Dと逆転出力搬送経
路Eが構成されて、入力搬送経路Bと逆転出力搬送経路
Eとをみると、同じ平面内で、180度相違した方向に
帯状板Sが搬出される経路としている。A virtual guide cylinder 2 is arranged symmetrically to the virtual guide cylinder 1 provided with the input conveyance path B, the circumferential conveyance path A and the output conveyance path C, and the virtual guide cylinder 2 is also provided with When the output conveyance path C, the circumferential conveyance path D and the reverse rotation output conveyance path E are configured and the input conveyance path B and the reverse rotation output conveyance path E are viewed, the strip-shaped plates S are in the same plane in directions different by 180 degrees. Is taken out as a route.
【0014】そして、図2において図示する如く、出力
搬送経路Cの部分は、工場内の通常の通路よりも低い位
置に配置して、その上の通路と同じ平面に、通路鉄板4
を配置して、出力搬送経路Cは地下に配置して、オペレ
ーターが通路と同じ高さの通路鉄板4の上を、ウォーク
スルーすることが出来るように構成している。仮想ガイ
ド筒1と仮想ガイド筒2は、円筒ではなくて、その一部
の表面だけが残された円弧面とされており、該仮想ガイ
ド筒1を支持柱6により支持し、仮想ガイド筒2を支持
柱7により支持している。Then, as shown in FIG. 2, the portion of the output conveyance path C is arranged at a position lower than the normal passage in the factory, and the passage iron plate 4 is placed in the same plane as the passage above it.
Is arranged, and the output conveyance path C is arranged underground so that the operator can walk through on the iron plate 4 having the same height as the passage. The virtual guide cylinder 1 and the virtual guide cylinder 2 are not circular cylinders, but are circular arc surfaces in which only a part of the surface is left. The virtual guide cylinder 1 is supported by the support columns 6, and the virtual guide cylinder 2 Are supported by the support columns 7.
【0015】図4においては、仮想ガイド筒1と入力搬
送経路Bと円周搬送経路Aと出力搬送経路Cの関係位置
を図示している。即ち、全体が筒状に構成された仮想ガ
イド筒1の軸心O−Oに対して、入力搬送経路Bは45
度の角度で侵入し、該仮想ガイド筒1の周囲を円周搬送
経路Aにより回った後に、出力搬送経路Cが軸心O−O
に対して、45度を成す角度で出力されるのである。故
に、入力搬送経路Bと出力搬送経路Cとは、90度の角
度を成すこととなる。In FIG. 4, the relational positions of the virtual guide cylinder 1, the input transport path B, the circumferential transport path A, and the output transport path C are shown. That is, the input conveyance path B is 45 with respect to the axis O-O of the virtual guide cylinder 1 which is formed into a cylindrical shape as a whole.
After entering at an angle of degrees and rotating around the circumference of the virtual guide cylinder 1 by the circumferential transport path A, the output transport path C has an axial center O-O.
Is output at an angle of 45 degrees. Therefore, the input transport path B and the output transport path C form an angle of 90 degrees.
【0016】90度だけ帯状板Sの搬送方向を変える場
合には、この構成でよいが、入力搬送経路Bの通過する
位置と、出力搬送経路Cの通過する位置は、上下に間隔
Tだけ開いていることとなるので、同じ構成の、仮想ガ
イド筒2と出力搬送経路Cと円周搬送経路Dと逆転出力
搬送経路Eの部分を左右対称に図1・図2、図3の如く
配置することにより、同じ平面で、平行した経路で、水
平に間隔を置いた位置に、入力搬送経路Bと逆転出力搬
送経路Eとを配置した帯状板の搬送方向変換機構に構成
したのである。This configuration may be used when the transport direction of the strip S is changed by 90 degrees, but the position where the input transport path B passes and the position where the output transport path C passes are vertically spaced apart by a distance T. Therefore, the virtual guide cylinder 2, the output conveyance path C, the circumferential conveyance path D, and the reverse output conveyance path E having the same configuration are arranged symmetrically as shown in FIGS. 1, 2, and 3. As a result, the belt-shaped sheet transporting direction changing mechanism is configured such that the input transporting path B and the reverse output transporting path E are arranged at positions horizontally spaced apart in the same plane.
【0017】図5においては、仮想ガイド筒1と仮想ガ
イド筒2の周囲に配置したローラー5の形状を示してい
る。仮想ガイド筒1の周囲を帯状板Sが接触して搬送す
る場合に、軸心O−Oと帯状板Sの方向が、直交してい
る場合には、帯状板Sは仮想ガイド筒1の周囲に直線的
な状態で接触するのである。しかし、仮想ガイド筒1の
軸心O−Oに対して、45度の角度で巻付けられて接触
しながら搬送する場合には、帯状板Sは、直線ではなく
て、外側に凸を具備した楕円の円弧状に撓んで接触する
こととなるのである。FIG. 5 shows the shape of the rollers 5 arranged around the virtual guide cylinder 1 and the virtual guide cylinder 2. When the strip-shaped plate S is in contact with the periphery of the virtual guide cylinder 1 and is conveyed, when the axis O-O and the direction of the strip-shaped plate S are orthogonal to each other, the strip-shaped plate S is the periphery of the virtual guide cylinder 1. It makes a linear contact with. However, in the case where the belt-shaped plate S is wound at an angle of 45 degrees with respect to the axis O-O of the virtual guide cylinder 1 and conveyed while being in contact with the virtual guide tube 1, the strip-shaped plate S is not a straight line but has a convex outward. It is bent into contact with an elliptical arc.
【0018】このように、帯状板Sが楕円状に撓んで接
触するので、ローラー5に密着することができるよう
に、ローラー5は中央の径が大きく、左右の径が小さ
い、エンタシス状のローラに構成している。該ローラー
5の上に接触した状態で、帯状板Sが円滑に搬送される
ように、ガイドローラー8とローラー支持体10が設け
られている。該ローラー支持体10が仮想ガイド筒1又
は仮想ガイド筒2の外周面に固定支持されており、該ロ
ーラー支持体10に、ローラー5とガイドローラー8の
枢支軸が支持されている。In this way, since the strip-shaped plate S bends in contact with the elliptical shape and comes into contact with the roller 5, the roller 5 has a large center diameter and a small left and right diameters, and is an entasis roller. Is configured. A guide roller 8 and a roller support 10 are provided so that the belt-like plate S can be smoothly conveyed in a state of being in contact with the roller 5. The roller support 10 is fixedly supported on the outer peripheral surface of the virtual guide cylinder 1 or the virtual guide cylinder 2, and the roller support 10 supports the pivot shafts of the roller 5 and the guide roller 8.
【0019】図6と図7においては、実際のローラー5
とガイドローラー8とローラー支持体10の状態を図示
している。該ローラー5とガイドローラー8の間には大
きな間隙が構成されているが、その他にローラー5と間
を狭く構成した抑えローラー16が設けられている。該
ローラー5と抑えローラー16の間は狭く、帯状板Sを
挟持して、帯状板Sの浮き上がりを阻止している。ま
た、数本のローラー毎に、サイドローラー15・15が
立設されている。該サイドローラー15・15は、帯状
板Sの横方向への移動を阻止している。In FIGS. 6 and 7, the actual roller 5
The state of the guide roller 8 and the roller support 10 is illustrated. Although a large gap is formed between the roller 5 and the guide roller 8, a pressing roller 16 that is narrowly formed between the roller 5 and the guide roller 8 is provided. The space between the roller 5 and the pressing roller 16 is narrow, and the strip plate S is sandwiched to prevent the strip plate S from rising. Further, side rollers 15 and 15 are provided upright for every several rollers. The side rollers 15 prevent the lateral movement of the strip S.
【0020】[0020]
【発明の効果】本発明は以上の如く構成したので、次の
ような効果を奏するのである。請求項1の如く構成した
ので、電縫管の製造プラント等で、各単位装置を直線的
に長く配置することが出来ない場合に、本発明の帯状板
の搬送方向変換機構により、工場の隅の部分で向きを変
えることができるので、プラントの単位装置のレイアウ
トの配置設計が楽になる。 また、帯状板Sが通過するプ
ラントの経路において、出力搬送経路Cを、入力搬送経
路B及び逆転出力搬送経路Eよりも低い位置として、該
出力搬送経路Cの上に通路鉄板4を付設し通路を構成し
たので、出力搬送経路Cの部分だけを、オペレーター
が、前後に平行に配置したラインの間で鉄板の上を、ウ
ォークスルーすることが可能となったのである。 Since the present invention is constructed as described above, it has the following effects. It is configured as in claim 1.
Therefore, each unit device should be
The strip plate of the present invention when it cannot be placed for a long time
With the transport direction conversion mechanism, the direction can be changed at the corner of the factory.
Therefore, the layout of the unit equipment of the plant
The layout design of the console becomes easier. In addition, the plate through which the strip S passes
In the runt path, the output transfer path C
As a position lower than the path B and the reverse output conveyance path E,
A passage iron plate 4 is attached on the output conveyance route C to form a passage.
Therefore, only the part of the output transport path C
On the iron plate between the lines arranged parallel to the front and back,
It became possible to go through.
【0021】請求項2の如く構成したので、出力搬送経
路Cを床下に通過させることが出来るので、オペレータ
ーが、前後に平行に配置したラインの間を、ウォークス
ルーすることが可能となり、作業の効率が向上した。 According to the second aspect of the present invention, the output conveying path is
Since the road C can be passed under the floor, the operator
The walks between the lines that are
It has become possible to do the work, and the work efficiency has improved.
【図1】本発明の帯状板の搬送方向変換機構の平面図。FIG. 1 is a plan view of a belt-shaped plate conveyance direction conversion mechanism of the present invention.
【図2】同じく本発明の帯状板の搬送方向変換機構の正
面図。FIG. 2 is a front view of a belt-shaped plate conveyance direction changing mechanism of the present invention.
【図3】同じく本発明の帯状板の搬送方向変換機構の右
側面図。FIG. 3 is a right side view of the belt-shaped plate conveyance direction changing mechanism of the present invention.
【図4】仮想ガイド筒1と入力搬送経路Bと円周搬送経
路Aと出力搬送経路Cとの位置関係を示す平面模式図。FIG. 4 is a schematic plan view showing a positional relationship between a virtual guide cylinder 1, an input conveyance path B, a circumferential conveyance path A, and an output conveyance path C.
【図5】ローラー5の円弧状外形を示す正面図。FIG. 5 is a front view showing an arcuate outer shape of a roller 5.
【図6】仮想ガイド筒2の外周に配置したローラー5の
列を示す斜視図。FIG. 6 is a perspective view showing a row of rollers 5 arranged on the outer periphery of a virtual guide cylinder 2.
【図7】仮想ガイド筒1の内側を示す斜視図。FIG. 7 is a perspective view showing the inside of a virtual guide cylinder 1.
【図8】仮想ガイド筒2の内側を示す斜視図。FIG. 8 is a perspective view showing the inside of a virtual guide tube 2.
A 円周搬送経路 B 入力搬送経路 C 出力搬送経路 D 円周搬送経路 E 逆転出力搬送経路 S 帯状板 1 仮想ガイド筒 2 仮想ガイド筒 5 ローラー 7 支持柱 A Circular transport route B input transport route C output transport route D Circular transport route E Reverse output transport path S strip plate 1 Virtual guide tube 2 Virtual guide tube 5 rollers 7 support pillars
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 昭56−127538(JP,A) 特開 昭60−87156(JP,A) 特開 昭58−135049(JP,A) 特開 昭61−49724(JP,A) 特開 昭60−158914(JP,A) (58)調査した分野(Int.Cl.7,DB名) B65H 23/32 B65H 23/18 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-56-127538 (JP, A) JP-A-60-87156 (JP, A) JP-A-58-135049 (JP, A) JP-A-61- 49724 (JP, A) JP-A-60-158914 (JP, A) (58) Fields investigated (Int.Cl. 7 , DB name) B65H 23/32 B65H 23/18
Claims (2)
中に、該帯状板Sの搬送平面と平行する軸心を具備した
仮想ガイド筒1を配置し、該仮想ガイド筒1の軸心O−
Oに対して、45度の角度方向から、仮想ガイド筒1の
外周接線面の方向にそって入力搬送経路Bを配置し、該
入力搬送経路Bが仮想ガイド筒1の外周に接触した位置
から、仮想ガイド筒1の外周に沿った円周搬送経路Aを
構成し、仮想ガイド筒1の下面から入力搬送経路Bと平
行する外周接線面に沿って、軸心O−Oと45度の方向
に出力搬送経路Cを構成し、帯状板Sを平行状態の異な
る面上で90度だけ搬送方向を変換し、更に、前記仮想
ガイド筒1の軸心O−Oと90度の角度で交叉する軸心
P−Pの仮想ガイド筒2を配置し、該仮想ガイド筒2に
外周に前記出力搬送経路Cを入力し、仮想ガイド筒2の
外周の円周搬送経路Dを経て、前記入力搬送経路Bと平
行した平面方向の逆転出力搬送経路Eに連結した構成に
おいて、前記出力搬送経路Cを、入力搬送経路B及び逆
転出力搬送経路Eよりも低い位置として、該出力搬送経
路Cの上に通路鉄板4を付設し通路を構成したことを特
徴とする帯状板の搬送方向変換機構。1. A virtual guide cylinder 1 having an axis parallel to the plane of conveyance of the strip S is arranged in the middle of a strip conveyance path for conveying the strip S, and the axis of the virtual guide 1 is arranged. O-
The input transport path B is arranged along the direction of the outer peripheral tangent surface of the virtual guide cylinder 1 from the angle direction of 45 degrees with respect to O, and from the position where the input transport path B contacts the outer circumference of the virtual guide cylinder 1. , A circumferential conveying path A along the outer circumference of the virtual guide cylinder 1 is formed, and along the outer peripheral tangential surface parallel to the input conveying path B from the lower surface of the virtual guide cylinder 1, the direction of the axis O-O and 45 degrees output constitutes the conveying path C, to convert only the conveying direction 90 degrees on different strip-shaped plate S of the parallel state plane, the further the virtual
An axis that intersects the axis OO of the guide cylinder 1 at an angle of 90 degrees
The P-P virtual guide cylinder 2 is arranged, and the virtual guide cylinder 2 is arranged on the virtual guide cylinder 2.
The output conveyance path C is input to the outer circumference, and the virtual guide tube 2
It passes through the outer peripheral circumferential transfer path D and is flat with the input transfer path B.
In the configuration connected to the reverse output conveyance path E in the planar direction
In the above, the output transport path C is replaced with the input transport path B and the reverse.
The position lower than the output transfer path E is set as the output transfer path.
A conveyance direction changing mechanism for a strip-shaped plate, characterized in that a passage iron plate 4 is attached on the passage C to form a passage .
構において、出力搬送経路Cの部分だけは、床下を通過
させたことを特徴とする帯状板の搬送方向変換機構。2. A conveyor for changing the direction of conveyance of a strip plate according to claim 1.
In the construction, only the part of the output conveyance route C passes under the floor.
A mechanism for changing the conveyance direction of a strip plate, which is characterized in that
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP07694994A JP3374942B2 (en) | 1994-04-15 | 1994-04-15 | Transfer direction changing mechanism for belt-shaped plate |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP07694994A JP3374942B2 (en) | 1994-04-15 | 1994-04-15 | Transfer direction changing mechanism for belt-shaped plate |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH07285720A JPH07285720A (en) | 1995-10-31 |
| JP3374942B2 true JP3374942B2 (en) | 2003-02-10 |
Family
ID=13620026
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP07694994A Expired - Fee Related JP3374942B2 (en) | 1994-04-15 | 1994-04-15 | Transfer direction changing mechanism for belt-shaped plate |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3374942B2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP6895064B2 (en) * | 2017-06-29 | 2021-06-30 | 京セラドキュメントソリューションズ株式会社 | Sheet transfer switching device and image forming system |
-
1994
- 1994-04-15 JP JP07694994A patent/JP3374942B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH07285720A (en) | 1995-10-31 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JP6604325B2 (en) | Conveyor device | |
| JP3374942B2 (en) | Transfer direction changing mechanism for belt-shaped plate | |
| KR100322918B1 (en) | Movable workbench and assembly line device using it | |
| JPS61203059A (en) | Device of correcting meandering of band plate | |
| US3583621A (en) | Turning device for use in conveyor systems for sheet material | |
| CN101422801A (en) | Sheet material feeding apparatus | |
| JPS6397565A (en) | Prevention for meandering of strip-shaped transported article | |
| JPH03151111A (en) | Device and method for correcting meandering | |
| TWI274027B (en) | Floating type belt conveyer device | |
| CN109625889B (en) | Turning device and transportation line | |
| JPH0449623Y2 (en) | ||
| JP4559987B2 (en) | A threading table with excellent tip threadability | |
| JPH0615807U (en) | Carrier | |
| CN207900052U (en) | A kind of motorcycle Hardware fitting processing automatic pipebender conveying device | |
| JPS61235309A (en) | Belt conveyor device | |
| JPH0326402Y2 (en) | ||
| JP2519662B2 (en) | Transfer device for ultra-thin printed circuit boards | |
| JP2508216Y2 (en) | Heat transfer tube panel flow sequence change structure | |
| JPH0133551Y2 (en) | ||
| JPS61229773A (en) | Belt-shaped material tiering device | |
| JP2599248Y2 (en) | Device for changing the direction of travel of strips | |
| JP2979377B2 (en) | Transfer device for drying nuclear fuel pellets | |
| JPS59229230A (en) | Device for changing advancing direction of strip | |
| JPS63235251A (en) | Conveyor for paper product particularly connected in scalelike manner | |
| JPS6127859A (en) | Belt-like material storing device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081129 Year of fee payment: 6 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081129 Year of fee payment: 6 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20091129 Year of fee payment: 7 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20101129 Year of fee payment: 8 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20101129 Year of fee payment: 8 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20111129 Year of fee payment: 9 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20121129 Year of fee payment: 10 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20121129 Year of fee payment: 10 |
|
| FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20131129 Year of fee payment: 11 |
|
| LAPS | Cancellation because of no payment of annual fees |