JPH11286058A - Production of plastic corrugated pipe - Google Patents
Production of plastic corrugated pipeInfo
- Publication number
- JPH11286058A JPH11286058A JP10105710A JP10571098A JPH11286058A JP H11286058 A JPH11286058 A JP H11286058A JP 10105710 A JP10105710 A JP 10105710A JP 10571098 A JP10571098 A JP 10571098A JP H11286058 A JPH11286058 A JP H11286058A
- Authority
- JP
- Japan
- Prior art keywords
- hollow
- plastic
- shape
- strip
- manufacturing
- 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.)
- Pending
Links
Landscapes
- Rigid Pipes And Flexible Pipes (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明はプラスチック製コル
ゲート管の変形が生じにくい製造方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a plastic corrugated pipe which is less likely to be deformed.
【0002】[0002]
【従来の技術】プラスチック製コルゲート管の製造方法
の一つとして、マンドレルの外周に、押出機から溶融状
態のプラスチック帯状体を供給して螺旋状に捲回する方
法が知られている。2. Description of the Related Art As one method of manufacturing a plastic corrugated pipe, there is known a method in which a molten plastic strip is supplied from an extruder to the outer periphery of a mandrel and spirally wound.
【0003】この方法は具体的には、図10に示すプラ
スチック帯状体100、即ち、山部100aの片側にヒ
レ部100bを備え、反対側に平坦部100cを備えた
断面形状のプラスチック帯状体100を押出機から押出
してマンドレル101へ供給し、同図に示す如く山部1
00aとヒレ部100bが平坦部100cの上に重なる
ようにプラスチック帯状体100をマンドレル101の
外周に螺旋状に捲回して、その重なり部分を融着させる
ことにより、螺旋状の山部100aと谷部を交互に有す
るプラスチック製コルゲート管を製造するものである。This method is, specifically, a plastic strip 100 shown in FIG. 10, that is, a plastic strip 100 having a cross section having a fin 100b on one side of a peak 100a and a flat portion 100c on the other side. Is extruded from the extruder and supplied to the mandrel 101, and as shown in FIG.
The plastic band 100 is spirally wound around the outer periphery of the mandrel 101 so that the fin portion 100a and the fin portion 100b overlap the flat portion 100c, and the overlapping portion is fused to form the spiral peak portion 100a and the valley. This is for producing a plastic corrugated pipe having alternating portions.
【0004】[0004]
【発明が解決しようとする課題】しかしながら、上記の
製造方法でプラスチック製コルゲート管を製造すると、
プラスチック帯状体100の山部100aが冷却に伴っ
て歪みを生じるため、図10に一点鎖線で示すように山
部100aが内側へ凹曲変形して形崩れを起こし、変形
の少ないプラスチック製コルゲート管を得ることが難し
いという問題があった。However, when a plastic corrugated pipe is manufactured by the above manufacturing method,
Since the ridge 100a of the plastic strip 100 is distorted by cooling, the ridge 100a is concavely deformed inward as shown by a dashed line in FIG. There was a problem that it was difficult to obtain.
【0005】本発明は上記の問題に鑑みなされたもの
で、その目的とするところは、実質的に変形が生じない
ようにプラスチック製コルゲート管を製造できる方法を
提供することにある。SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to provide a method for manufacturing a plastic corrugated pipe without substantially deforming.
【0006】[0006]
【課題を解決するための手段】前記目的を達成するた
め、本発明の請求項1に係るプラスチック製コルゲート
管の製造方法は、フラットな帯状部の片面に中空凸条部
を備えた溶融状態のプラスチック帯状型体を、その中空
凸条部を外側にして帯状型体の側縁が重なるように螺旋
状にマンドレルの外周に捲回してプラスチック製コルゲ
ート管を製造する方法において、上記の中空凸条部を保
形するための保形用スライダーを支持杆の先端に取付け
て中空凸条部の内部に挿入、配置し、保形用スライダー
を中空凸条部の内部で相対的に摺動させることを特徴と
するものである。According to a first aspect of the present invention, there is provided a method for manufacturing a plastic corrugated pipe, comprising: a flat band-shaped portion having a hollow ridge on one surface; In the method of manufacturing a plastic corrugated pipe by winding a plastic band-shaped body around the outer periphery of a mandrel in a spiral shape so that the side edges of the band-shaped body overlap with the hollow ridge portion, Attach a shape-retaining slider to the tip of the support rod to retain the shape of the part, insert and place it inside the hollow ridge, and slide the shape-retention slider relatively inside the hollow ridge. It is characterized by the following.
【0007】この製造方法のように、保形用スライダー
をプラスチック帯状型体の中空凸条部の内部で相対的に
摺動させると、冷却に伴って内側へ凹曲変形しようとす
る中空凸条部が保形用スライダーにより元の中空形状に
保形されるため、中空凸条部の凹曲変形が防止されて形
崩れのない商品価値の高いプラスチック製コルゲート管
を製造することが可能となる。When the slider for shape retention is relatively slid inside the hollow ridge portion of the plastic strip-shaped body as in this manufacturing method, the hollow ridge portion which is likely to be concavely deformed inward with cooling. Since the part is retained in the original hollow shape by the shape retaining slider, the concave convex deformation of the hollow ridge part is prevented, and it is possible to manufacture a plastic corrugated pipe of high commercial value without collapse. .
【0008】また、本発明の請求項2に係る製造方法
は、フラットな帯状部の片面に中空凸条部を備えた溶融
状態のプラスチック帯状型体を、その中空凸条部を外側
にして帯状型体の側縁が重なるように螺旋状にマンドレ
ルの外周に捲回し、更にその外周にフラットな溶融状態
のプラスチック帯体をその側縁が重なるように螺旋状に
捲回してプラスチック製コルゲート管を製造する方法に
おいて、上記の中空凸条部を保形するための保形用スラ
イダーを支持杆の先端に取付けて中空凸条部の内部に挿
入、配置し、保形用スライダーを中空凸条部の内部で相
対的に摺動させることを特徴とするものである。Further, according to a second aspect of the present invention, there is provided a manufacturing method according to the first aspect of the present invention, wherein a molten plastic band-shaped body having a hollow band on one side of a flat band is formed with the hollow band being outside. A plastic corrugated tube is wound spirally around the outer periphery of the mandrel so that the side edges of the mold overlap, and a flat molten plastic band is spirally wound around the outer periphery so that the side edges overlap. In the manufacturing method, a shape-preserving slider for preserving the hollow convex portion is attached to the tip of the support rod and inserted and arranged inside the hollow convex portion, and the shape-retaining slider is attached to the hollow convex portion. Are relatively slid inside.
【0009】この製造方法の場合も、前記の製造方法と
同様に保形用スライダーをプラスチック帯状型体の中空
凸条部の内部で相対的に摺動させるので、中空凸条部の
凹曲変形を保形用スライダーによって防止することが可
能となり、更にフラットなプラスチック帯体を螺旋状に
捲回することによって、円筒形の平滑な外管を備えた接
続性の良好なコルゲート管(所謂ダブルフラット管)を
製造することが可能となる。In this manufacturing method, the shape-retaining slider is relatively slid inside the hollow ridge of the plastic strip-shaped body in the same manner as in the above-mentioned manufacturing method. Can be prevented by the shape-retaining slider, and a flat plastic strip is spirally wound to form a corrugated pipe (so-called double flat) having a cylindrical smooth outer pipe and having good connectivity. Tube) can be manufactured.
【0010】次に、本発明の請求項3に係る製造方法
は、上記請求項1又は2の製造方法において、流体供給
口を有する保形用スライダーをパイプ状の支持杆の先端
に取付けてプラスチック帯状型体の中空凸条部の内部に
挿入、配置し、保形用スライダーを中空凸条部の内部で
相対的に摺動させると共に、パイプ状の支持杆および保
形用スライダーの流体供給口を通じて加圧流体を中空凸
条部に供給することを特徴とするものである。Next, according to a third aspect of the present invention, there is provided the manufacturing method according to the first or second aspect, wherein the shape-retaining slider having the fluid supply port is attached to the tip of the pipe-shaped support rod. It is inserted and arranged inside the hollow ridge of the belt-shaped body, and the shape-retaining slider is relatively slid inside the hollow ridge, and the pipe-shaped support rod and the fluid supply port of the shape-retaining slider are also provided. And supplying a pressurized fluid to the hollow ridges through the ridges.
【0011】この製造方法のようにパイプ状の支持杆と
保形用スライダーの流体供給口を通じて加圧流体をプラ
スチック帯状型体の中空凸条部へ供給すると、中空凸条
部が保形用スライダーにより保形されるだけでなく、そ
の流体の圧力によって中空凸条部が内側から押圧される
ため、中空凸条部の内側への凹曲変形を確実に防止する
ことが可能となる。また、加圧流体を供給すると、保形
用スライダーと中空凸条部の内面との接触圧が大幅に低
下し、保形用スライダーの相対的な摺動がスムーズに行
われるようになる。When the pressurized fluid is supplied to the hollow ridge of the plastic strip-shaped body through the pipe-shaped support rod and the fluid supply port of the shape-retaining slider as in this manufacturing method, the hollow ridge becomes the slider for the shape-retaining. In addition to the shape retention, the hollow ridge is pressed from the inside by the pressure of the fluid, so that the inward concave deformation of the hollow ridge can be reliably prevented. Further, when the pressurized fluid is supplied, the contact pressure between the shape retaining slider and the inner surface of the hollow ridge portion is greatly reduced, and the relative sliding of the shape retaining slider is smoothly performed.
【0012】更に、本発明の請求項4に係る製造方法
は、上記請求項3の製造方法において、加圧流体として
冷たい加圧空気をプラスチック帯状型体の中空凸条部に
供給することを特徴とするものである。Further, in the manufacturing method according to a fourth aspect of the present invention, in the manufacturing method according to the third aspect, cold pressurized air as a pressurized fluid is supplied to the hollow convex portion of the plastic strip-shaped body. It is assumed that.
【0013】この製造方法のように冷たい加圧空気を中
空凸条部に供給すると、中空凸条部が内側から速やかに
冷却され、保形用スライダーと該空気の圧力によって中
空凸条部がその形状を維持したまま短時間で固化するた
め、中空凸条部の凹曲変形をより一層確実に防止するこ
とが可能となる。When cold pressurized air is supplied to the hollow ridge as in this manufacturing method, the hollow ridge is rapidly cooled from the inside, and the hollow ridge is formed by the shape-retaining slider and the pressure of the air. Since the solidification is performed in a short time while maintaining the shape, it is possible to more reliably prevent the concave deformation of the hollow ridge.
【0014】次に、本発明の請求項5に係る製造方法
は、上記請求項1の製造方法において、マンドレルの外
周に捲回したプラスチック帯状型体の中空凸条部相互間
の凹部に押圧ベルトを捲きかけ、プラスチック帯状型体
の重なった側縁を押圧することを特徴とするものであ
り、また、本発明の請求項6に係る製造方法は、上記請
求項2の製造方法において、プラスチック帯体を捲回す
る前に、マンドレルの外周に捲回したプラスチック帯状
型体の中空凸条部相互間の凹部に押圧ベルトを捲きか
け、プラスチック帯状型体の重なった側縁を押圧するこ
とを特徴とするものである。Next, a manufacturing method according to a fifth aspect of the present invention is the manufacturing method according to the first aspect, wherein the pressing belt is provided between the hollow ridges of the plastic band-shaped body wound around the outer periphery of the mandrel. And pressing the overlapping side edges of the plastic band-shaped mold. The manufacturing method according to a sixth aspect of the present invention is the manufacturing method according to the second aspect, wherein Before winding the body, the pressing belt is wound around the concave portion between the hollow ridges of the plastic band-shaped body wound around the outer periphery of the mandrel, and the overlapping side edges of the plastic band-shaped body are pressed. It is assumed that.
【0015】これらの請求項5及び請求項6の製造方法
のように、押圧ベルトでプラスチック帯状型体の重なっ
た側縁を押圧すると、側縁同士が密接状態で融着し、融
着不良を生じる心配がなくなる。When the overlapping side edges of the plastic band-shaped body are pressed by the pressing belt as in the manufacturing methods of the fifth and sixth aspects, the side edges are fused in a close contact state, and the defective fusion is prevented. Eliminate the worry.
【0016】更に、請求項7に係る製造方法は、上記請
求項2又は6の製造方法において、螺旋状に捲回したプ
ラスチック帯体の重なった側縁を押圧ローラで押圧する
ことを特徴とするものである。Further, a manufacturing method according to claim 7 is characterized in that, in the manufacturing method according to claim 2 or 6, the overlapping side edges of the spirally wound plastic strip are pressed by a pressing roller. Things.
【0017】この製造方法のように押圧ローラでプラス
チック帯体の重なった側縁を押圧すると、側縁同士が密
接状態で融着すると共に、該側縁が内側のプラスチック
帯状型体の中空凸条部に対しても密接状態で融着するた
め、これら相互間の融着不良がなくなり接合強度が向上
する。When the overlapping side edges of the plastic band are pressed by the pressing roller as in this manufacturing method, the side edges are fused in a close contact state, and the side edges are hollow ridges of the inner plastic band-shaped body. Since the parts are fused to each other in a close contact state, defective fusion between these parts is eliminated and the bonding strength is improved.
【0018】[0018]
【発明の実施の形態】以下、図面を参照して本発明の具
体的な実施形態を詳述する。DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.
【0019】図1は本発明の一実施形態に係るプラスチ
ック製コルゲート管の製造方法の説明図、図2は同製造
方法に用いるプラスチック帯状型体の断面図、図3は支
持杆の先端に取付けられた保形用スライダーの一例を示
す斜視図、図4は支持杆の先端に取付けられた保形用ス
ライダーの他の例を示す斜視図、図5は同製造方法にお
いてプラスチック帯状型体の重なった側縁を押圧ベルト
で押圧しているところを示す部分断面図である。FIG. 1 is an explanatory view of a method of manufacturing a plastic corrugated pipe according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of a plastic strip used in the manufacturing method, and FIG. FIG. 4 is a perspective view showing another example of the shape keeping slider attached to the tip of the support rod, and FIG. 5 is a perspective view showing another example of the shape keeping slider attached to the tip of the support rod. FIG. 4 is a partial cross-sectional view showing a state where a side edge is pressed by a pressing belt.
【0020】図1において、1はマンドレルであり、こ
のマンドレル1は多数のロール1aを円筒状に配置し
て、駆動装置1bにより各ロール1aを一斉に回転させ
るように構成したものである。各ロール1aは一定の角
度で傾斜させてあるため、一斉に各ロール1aを回転さ
せながら、プラスチック帯状型体2をマンドレル1の外
周に螺旋状に捲回すると、その捲回物(プラスチック製
コルゲート管P)をロール1aの傾斜角度に応じた送り
ピッチで先方(図1では右方)へ移送できるようになっ
ている。In FIG. 1, reference numeral 1 denotes a mandrel. The mandrel 1 has a structure in which a large number of rolls 1a are arranged in a cylindrical shape, and the rolls 1a are simultaneously rotated by a driving device 1b. Since each roll 1a is inclined at a fixed angle, when the plastic band-shaped body 2 is spirally wound around the outer periphery of the mandrel 1 while simultaneously rotating the rolls 1a, the wound material (plastic corrugate) is formed. The pipe P) can be transferred to the front (to the right in FIG. 1) at a feed pitch corresponding to the inclination angle of the roll 1a.
【0021】溶融押出機3の押出口3aから押出される
溶融状態のプラスチック帯状型体2は、図2に示すよう
にフラットな帯状部2aの片面に中空凸条部2bを備え
たもので、帯状部2aの一方の側縁には傾斜した受け面
2cが形成されており、他方の側縁には傾斜した重ね面
2dが形成されている。そして、このプラスチック帯状
型体2は、その中空凸条部2bを外側にして、側縁の受
け面2cと重ね面2dが重なるようにマンドレル1の外
周に螺旋状に捲回され、重なった受け面2cと重ね面2
dが融着されて、内面の平滑なプラスチック製コルゲー
ト管Pが製造される。The molten plastic strip 2 extruded from the extrusion port 3a of the melt extruder 3 is provided with a hollow strip 2b on one side of a flat strip 2a as shown in FIG. An inclined receiving surface 2c is formed on one side edge of the belt-shaped portion 2a, and an inclined overlapping surface 2d is formed on the other side edge. The plastic band-shaped body 2 is spirally wound around the outer periphery of the mandrel 1 so that the receiving surface 2c of the side edge and the overlapping surface 2d overlap each other with the hollow ridge 2b facing outward, and the overlapped receiving member is formed. Surface 2c and overlapping surface 2
d is fused to produce a plastic corrugated pipe P having a smooth inner surface.
【0022】図1に示すように、溶融押出機3から押出
されたプラスチック帯状型体2の中空凸条部2bの内部
には、中空凸条部2bを保形するための保形用スライダ
ー7が支持杆7aの先端に取付けられて挿入、配置され
ている。この保形用スライダー7は、図3に示すように
中空凸条部の中空形状と対応合致する直方体形状を有す
るもので、中空凸条部の内部を滑らかに摺動できるよう
に支持杆7aとの取付端部が先細り形状とされている。
そして、この保形用スライダー7の支持杆7aは溶融押
出機3の押出口3aの内部から押出方向に突設され、該
支持杆7aの先端に近い部分は、プラスチック帯状型体
2の捲始め部分の中空凸条部2bに丁度挿入できるよう
に曲成されている。As shown in FIG. 1, inside a hollow ridge 2b of a plastic strip 2 extruded from a melt extruder 3, a slider 7 for retaining the hollow ridge 2b is provided. Are attached to the tip of the support rod 7a and inserted and arranged. The shape-retaining slider 7 has a rectangular parallelepiped shape corresponding to the hollow shape of the hollow ridge, as shown in FIG. 3, and has a support rod 7a so as to slide smoothly inside the hollow ridge. Has a tapered shape at its mounting end.
The support rod 7a of the shape-retaining slider 7 is protruded from the inside of the extrusion port 3a of the melt extruder 3 in the extrusion direction, and a portion near the tip of the support rod 7a starts winding of the plastic strip-shaped body 2. It is bent so that it can be inserted exactly into the hollow ridge 2b of the portion.
【0023】上記のように保形用スライダー7を支持杆
7aの先端に取付けてプラスチック帯状型体2の中空凸
条部2bの内部に挿入、配置した状態のまま、該帯状型
体2をマンドレル1に捲回していくと、保形用スライダ
ー7が中空凸条部2bの内部を相対的に摺動し、冷却に
伴って凹曲変形しようとする中空凸条部2bを内側から
押し広げて元の中空形状を保持するため、中空凸条部2
bの凹曲変形を防止して形崩れがない商品価値の高いプ
ラスチック製コルゲート管Pを製造することが可能とな
る。With the shape-retaining slider 7 attached to the tip of the support rod 7a as described above and inserted and arranged inside the hollow ridge 2b of the plastic band-shaped body 2, the band-shaped body 2 is mandrel-mounted. As it is wound around 1, the shape-retaining slider 7 relatively slides inside the hollow ridge 2b and pushes out the hollow ridge 2b, which is going to be concavely deformed with cooling, from the inside. To maintain the original hollow shape, the hollow ridges 2
It is possible to manufacture a plastic corrugated pipe P having a high commercial value that prevents the concave deformation of b and does not lose its shape.
【0024】その場合、図4に示すように流体供給口7
cを四側面に有する保形用スライダー7をパイプ状の支
持杆7bの先端に取付けて、これをプラスチック帯状型
体2の中空凸条部2bの内部に挿入、配置し、保形用ス
ライダー7を中空凸条部2bの内部で相対的に摺動させ
ながら、パイプ状の支持杆7bおよび保形用スライダー
の流体供給口7cを通じて加圧流体を中空凸条部2aへ
供給すると、中空凸条部2bが保形用スライダー7によ
って保形されるだけでなく、その流体の圧力によって中
空凸条部2bが内側から押圧されるため、中空凸条部2
bの内側への凹曲変形を確実に防止することが可能とな
る。そして、この流体の圧力で保形用スライダー7と中
空凸条部2bの接触圧が大幅に減少して摩擦力が低下す
るため、保形用スライダー7の相対的な摺動が一層滑ら
かに行われるようになる。In this case, as shown in FIG.
c is attached to the tip of a pipe-shaped support rod 7b, which is inserted and arranged inside the hollow ridge 2b of the plastic strip-shaped body 2, and the slider 7 for shape retention When the pressurized fluid is supplied to the hollow ridge 2a through the pipe-shaped support rod 7b and the fluid supply port 7c of the shape-retaining slider while relatively sliding inside the hollow ridge 2b, Not only is the portion 2b retained by the shape retaining slider 7, but also the hollow convex portion 2b is pressed from the inside by the pressure of the fluid.
It is possible to reliably prevent concave bending deformation inward of b. Then, the pressure of the fluid greatly reduces the contact pressure between the shape-retaining slider 7 and the hollow ridge 2b and reduces the frictional force, so that the relative sliding of the shape-retaining slider 7 can be performed more smoothly. You will be
【0025】加圧流体としては、冷たい加圧空気(常温
もしくはそれ以下の温度に冷却した圧縮空気)が好適に
使用される。このような冷たい加圧空気を保形用スライ
ダー7の流体供給口7cから中空凸条部2bの内部へ供
給すると、中空凸条部2bが内側から速やかに冷却さ
れ、保形用スライダー7と該空気の圧力によって中空凸
条部2bがその形状を維持したまま短時間で固化するた
め、中空凸条部2bの凹曲変形をより一層確実に防止す
ることが可能となる。また、加圧した水なども使用で
き、このような水は噴霧状態で供給するのが好ましい。As the pressurized fluid, cold pressurized air (compressed air cooled to room temperature or lower) is preferably used. When such cold pressurized air is supplied from the fluid supply port 7c of the shape retaining slider 7 into the inside of the hollow convex portion 2b, the hollow convex portion 2b is rapidly cooled from the inside, and the shape retaining slider 7 and the Since the hollow ridge 2b is solidified in a short time while maintaining its shape by the pressure of the air, it is possible to more reliably prevent the concave deformation of the hollow ridge 2b. Also, pressurized water or the like can be used, and such water is preferably supplied in a spray state.
【0026】なお、供給された加圧空気は、螺旋状に連
続する中空凸条部2bを流れてその先端開口から自然に
放出されるので、空気抜きの孔などを別途形成する必要
はないが、供給する加圧空気の圧力が高すぎると、中空
凸条部2bが外側へ膨出変形するので、そのような膨出
変形が生じないように現場で加圧空気の圧力を適宜調整
することが大切である。The supplied pressurized air flows through the helically continuous hollow ridges 2b and is spontaneously discharged from the opening at the tip thereof. Therefore, it is not necessary to separately form holes for venting air. If the pressure of the pressurized air to be supplied is too high, the hollow ridge 2b swells and deforms outward. Therefore, it is necessary to appropriately adjust the pressure of the pressurized air on site so that such swelling deformation does not occur. It is important.
【0027】更に、図5に示すように、マンドレル1の
外周に捲回したプラスチック帯状型体2の中空凸条部2
b相互間の凹部に押圧ベルト4を数巻ほど捲きかけ、プ
ラスチック帯状型体2の重なった側縁を押圧することが
望ましい。このように押圧ベルト4で押圧すると、プラ
スチック帯状型体2の側縁の受け面2cと重ね面2dが
密接状態で融着するため、融着不良などの欠陥がないプ
ラスチック製コルゲート管Pを得ることが可能となる。Further, as shown in FIG. 5, the hollow ridges 2 of the plastic strip 2 wound around the outer periphery of the mandrel 1 are formed.
It is desirable that the pressing belt 4 be wound around the concave portion between b by several turns to press the overlapping side edge of the plastic strip 2. When pressed by the pressing belt 4 in this manner, the receiving surface 2c of the side edge of the plastic strip-shaped body 2 and the overlapping surface 2d are fused in close contact with each other, so that a plastic corrugated pipe P free from defects such as defective fusion is obtained. It becomes possible.
【0028】図6は本発明の他の実施形態に係るプラス
チック製コルゲート管の製造方法の説明図、図7は同製
造方法に用いるプラスチック帯体の断面図、図8は同製
造方法においてプラスチック帯状型体の重なった側縁と
プラスチック帯体の重なった側縁を、それぞれ押圧ベル
トと押圧ローラで押圧しているしているところを示す部
分断面図である。FIG. 6 is an explanatory view of a method of manufacturing a plastic corrugated pipe according to another embodiment of the present invention, FIG. 7 is a cross-sectional view of a plastic strip used in the manufacturing method, and FIG. It is a fragmentary sectional view showing that the overlapped side edge of the mold and the overlapped side edge of the plastic strip are pressed by a pressing belt and a pressing roller, respectively.
【0029】この製造方法は、ダブルフラット管と呼ば
れる円筒形の平滑な外管を備えたコルゲート管Pを製造
するものであって、前記の製造方法と同様に、帯状部2
aの片面に中空凸条部2bを備えたプラスチック帯状型
体2を溶融押出機3の押出口3aから押出してマンドレ
ル1へ供給し、その中空凸条部2bを外側にしてマンド
レル1の外周にプラスチック帯状型体2を螺旋状に捲回
すると共に、その側縁の受け面2cと重ね面2dを重ね
て融着することにより、コルゲート内管P1 を形成する
ようにしている。This manufacturing method is for manufacturing a corrugated pipe P having a cylindrical smooth outer pipe called a double flat pipe.
a, a plastic strip 2 having a hollow ridge 2b on one side is extruded from an extrusion port 3a of a melt extruder 3 and supplied to the mandrel 1, and the hollow ridge 2b is placed outside the mandrel 1. while winding a plastic strip-type body 2 helically, by fusing overlapping receiving surface 2c and the superposed surfaces 2d of the side edges, and so as to form a corrugated inner tube P 1.
【0030】そして、図6に一点鎖線で示すように、保
形用スライダー7を支持杆7aの先端に取付けてプラス
チック帯状型体2の中空凸条部2bの内部に挿入、配置
し、保形用スライダー7を中空凸条部2bの内部で相対
的に摺動させながら、凹曲変形しようとする中空凸条部
2bを内側から押し広げて中空形状を保ち、中空凸条部
2bの凹曲変形を防止して形崩れがないコルゲート内管
P1 を形成できるようにしている。Then, as shown by a dashed line in FIG. 6, a shape-retaining slider 7 is attached to the tip of the support rod 7a and inserted and arranged inside the hollow ridge portion 2b of the plastic band-shaped body 2. While the slider 7 is relatively slid inside the hollow ridge 2b, the hollow ridge 2b to be concavely deformed is pushed out from the inside to maintain the hollow shape, and the concave of the hollow ridge 2b is maintained. and to be able to form the corrugated inner tube P 1 is not loss of shape to prevent deformation.
【0031】その場合、図4に示すような流体供給口7
cを四側面に有する保形用スライダー7をパイプ状の支
持杆7bの先端に取付けてプラスチック帯状型体2の中
空凸条部2bの内部に挿入、配置し、冷たい加圧空気等
の圧力流体を保形用スライダーの流体供給口7cから中
空凸条部2bへ供給して、前記の方法と同様に中空凸条
部2bの凹曲変形を一層確実に防止してもよいことは言
うまでもない。In this case, the fluid supply port 7 as shown in FIG.
c is attached to the tip of a pipe-shaped support rod 7b and inserted and arranged inside the hollow ridge 2b of the plastic band-shaped body 2, and pressurized fluid such as cold pressurized air is attached. May be supplied from the fluid supply port 7c of the shape-retaining slider to the hollow ridge 2b to more surely prevent the hollow ridge 2b from being concavely deformed in the same manner as described above.
【0032】更に、この製造方法では、図7に示すよう
な傾斜した受け面5aと重ね面5bを両側縁に備えたフ
ラットな溶融状態のプラスチック帯体5を、もう一つの
溶融押出機30の押出口30aから押出して、その側縁
の受け面5aと重ね面5bが重なるようにプラスチック
帯体5をコルゲート内管P1 の外周に螺旋状に捲回し、
重なった受け面5aと重ね面5bを融着して円筒形の平
滑な外管P2 を形成すると共に、この外管P2 をコルゲ
ート内管P1 に融着することによって、ダブルフラット
管Pを製造している。Further, in this manufacturing method, a flat molten plastic strip 5 having inclined receiving surfaces 5a and overlapping surfaces 5b on both side edges as shown in FIG. extruded from the extrusion port 30a, wound plastic strip member 5 as receiving surfaces 5a and overlapped surface 5b of the side edges overlap in a spiral manner around the circumference of the corrugated inner tube P 1,
Thereby forming a superimposed receiving surface 5a and overlaid smooth outer tube of by fusing a cylindrical surface 5b P 2, by fusing the outer tube P 2 into corrugated inner tube P 1, double flat tube P Has been manufactured.
【0033】この製造方法においても、フラットなプラ
スチック帯体5を捲回する前に、図8に示すようにマン
ドレル1の外周に捲回したプラスチック帯状型体2の中
空凸条部2b相互間の凹部に押圧ベルトを数巻ほど捲き
かけ、重なった側縁の受け面2cと重ね面2dを押圧す
ることが望ましく、このように押圧すると、受け面2c
と重ね面2dが密接状態で融着するため、融着不良など
の欠陥がないコルゲート内管P1 を形成することが可能
となる。Also in this manufacturing method, before the flat plastic strip 5 is wound, as shown in FIG. 8, between the hollow ridges 2b of the plastic strip 2 wound around the outer periphery of the mandrel 1. It is desirable that the pressing belt be wound around the concave portion by a few turns to press the overlapping side receiving surface 2c and the overlapping surface 2d.
To fuse the superposed surfaces 2d is in close contact with, it is possible to form the corrugated inner tube P 1 is free from defects such as fusion defects.
【0034】また、図8に示すように捲回されたフラッ
トなプラスチック帯体5の重なった側縁を押圧ローラ
6,6によって押圧することが望ましく、このように押
圧すると、プラスチック帯体5側縁の受け面5aと重ね
面5bが密接状態で融着して融着不良のない外管P2 を
形成できると共に、この外管P2 がコルゲート内管P1
の中空凸条部2bに密接状態で融着するため、内管P1
と外管P2 の接合強度が大きいダブルフラット管Pを得
ることが可能となる。As shown in FIG. 8, it is desirable that the overlapping side edges of the flat plastic band 5 wound are pressed by the pressing rollers 6 and 6. with receiving surfaces 5a and overlapped surface 5b of the rim can form an outer tube P 2 without fusion defects are fused in tight contact, the outer tube P 2 are corrugated inner tube P 1
Of the inner pipe P 1 to be fused to the hollow ridge 2b in a close contact state.
Bonding strength of the outer pipe P 2 it is possible to obtain a large double flat tube P and.
【0035】以上の実施形態の製造方法はいずれも、プ
ラスチック帯状型体2として、帯状部2aの片面に一つ
の中空凸条部2bを設けたものを使用しているが、例え
ば図9に示すように帯状部2aの片面に二つの中空凸条
部2b,2bを設けたプラスチック帯状型体2を使用し
てもよく、更に中空凸条部を三つ以上設けたプラスチッ
ク帯状型体を使用してもよい。In each of the manufacturing methods of the above-described embodiments, the plastic band-shaped body 2 provided with one hollow ridge 2b on one surface of the band 2a is used, for example, as shown in FIG. As described above, a plastic strip 2 having two hollow ridges 2b, 2b on one surface of the strip 2a may be used, and a plastic strip having three or more hollow ridges may be used. You may.
【0036】[0036]
【発明の効果】以上の説明から明らかなように、本発明
の製造方法は、プラスチック帯状型体の中空凸条部の変
形を防止して形崩れがない商品価値の高いプラスチック
製コルゲート管を高い歩留で容易に量産できるといった
顕著な効果を奏する。As is evident from the above description, the manufacturing method of the present invention provides a plastic corrugated pipe having a high commercial value, which prevents deformation of the hollow ridges of the plastic strip-shaped body and has no deformation. It has a remarkable effect that it can be easily mass-produced by yield.
【図1】本発明の一実施形態に係るプラスチック製コル
ゲート管の製造方法の説明図である。FIG. 1 is an explanatory diagram of a method for manufacturing a plastic corrugated pipe according to an embodiment of the present invention.
【図2】同製造方法に用いるプラスチック帯状型体の断
面図である。FIG. 2 is a cross-sectional view of a plastic strip used in the manufacturing method.
【図3】支持杆の先端に取付けられた保形用スライダー
の一例を示す斜視図である。FIG. 3 is a perspective view showing an example of a shape-retaining slider attached to a tip of a support rod.
【図4】支持杆の先端に取付けられた保形用スライダー
の他の例を示す斜視図である。FIG. 4 is a perspective view showing another example of the shape-retaining slider attached to the tip of the support rod.
【図5】同製造方法においてプラスチック帯状型体の重
なった側縁を押圧ベルトで押圧しているところを示す部
分断面図である。FIG. 5 is a partial cross-sectional view showing a state where overlapping side edges of the plastic strip-shaped body are pressed by a pressing belt in the same manufacturing method.
【図6】本発明の他の実施形態に係るプラスチック製コ
ルゲート管の製造方法の説明図である。FIG. 6 is an explanatory diagram of a method for manufacturing a plastic corrugated pipe according to another embodiment of the present invention.
【図7】同製造方法に用いるプラスチック帯体の断面図
である。FIG. 7 is a sectional view of a plastic strip used in the manufacturing method.
【図8】同製造方法においてプラスチック帯状型体の重
なった側縁とプラスチック帯体の重なった側縁を、それ
ぞれ押圧ベルトと押圧ローラで押圧しているしていると
ころを示す部分断面図である。FIG. 8 is a partial cross-sectional view showing that the overlapping side edge of the plastic strip and the overlapping side edge of the plastic strip are pressed by a pressing belt and a pressing roller, respectively, in the same manufacturing method. .
【図9】プラスチック帯状型体の他の例を示す断面図で
ある。FIG. 9 is a cross-sectional view showing another example of the plastic band-shaped body.
【図10】従来のプラスチック製コルゲート管の製造方
法を説明する部分断面図である。FIG. 10 is a partial cross-sectional view illustrating a method for manufacturing a conventional plastic corrugated pipe.
1 マンドレル 2 プラスチック帯状型体 2a 帯状部 2b 中空凸条部 2c 受け面 2d 重ね面 3,30 溶融押出機 3b 流体供給通路 4 押圧ベルト 5 フラットなプラスチック帯体 5a 受け面 5b 重ね面 6 押圧ローラ 7 保形用スライダー 7a ロッド状の支持杆 7b パイプ状の支持杆 7c 流体供給口 REFERENCE SIGNS LIST 1 Mandrel 2 Plastic strip 2a Strip 2b Hollow ridge 2c Receiving surface 2d Stacking surface 3,30 Melt extruder 3b Fluid supply passage 4 Press belt 5 Flat plastic strip 5a Receiving surface 5b Stack surface 6 Press roller 7 Shape-retaining slider 7a Rod-shaped support rod 7b Pipe-shaped support rod 7c Fluid supply port
Claims (7)
えた溶融状態のプラスチック帯状型体を、その中空凸条
部を外側にして帯状型体の側縁が重なるように螺旋状に
マンドレルの外周に捲回してプラスチック製コルゲート
管を製造する方法において、上記の中空凸条部を保形す
るための保形用スライダーを支持杆の先端に取付けて中
空凸条部の内部に挿入、配置し、保形用スライダーを中
空凸条部の内部で相対的に摺動させることを特徴とする
プラスチック製コルゲート管の製造方法。1. A molten plastic strip having a hollow strip on one side of a flat strip is spirally wound so that the side edges of the strip overlap with the hollow strip being outside. In a method of manufacturing a plastic corrugated pipe by winding the outer periphery of a mandrel, a shape retaining slider for retaining the hollow convex portion is attached to the tip of the support rod and inserted into the hollow convex portion, A method for manufacturing a plastic corrugated pipe, comprising disposing and relatively sliding a shape retaining slider inside a hollow ridge.
えた溶融状態のプラスチック帯状型体を、その中空凸条
部を外側にして帯状型体の側縁が重なるように螺旋状に
マンドレルの外周に捲回し、更にその外周にフラットな
溶融状態のプラスチック帯体をその側縁が重なるように
螺旋状に捲回してプラスチック製コルゲート管を製造す
る方法において、上記の中空凸条部を保形するための保
形用スライダーを支持杆の先端に取付けて中空凸条部の
内部に挿入、配置し、保形用スライダーを中空凸条部の
内部で相対的に摺動させることを特徴とするプラスチッ
ク製コルゲート管の製造方法。2. A molten plastic strip-shaped body having a hollow ridge on one side of a flat strip is spirally wound so that the side edges of the strip overlap with the hollow ridge being outside. In a method of manufacturing a plastic corrugated tube by winding a flat molten plastic band around the outer periphery of a mandrel and further spirally winding a flat molten plastic band so that its side edges overlap with each other, A shape-retaining slider for shape-retaining is attached to the tip of the support rod, inserted and arranged inside the hollow ridge, and the shape-retaining slider is relatively slid inside the hollow ridge. Method for manufacturing a plastic corrugated pipe.
イプ状の支持杆の先端に取付けてプラスチック帯状型体
の中空凸条部の内部に挿入、配置し、保形用スライダー
を中空凸条部の内部で相対的に摺動させると共に、パイ
プ状の支持杆および保形用スライダーの流体供給口を通
じて加圧流体を中空凸条部に供給することを特徴とする
請求項1又は請求項2に記載の製造方法。3. A shape-retaining slider having a fluid supply port is attached to the tip of a pipe-shaped support rod, and inserted and arranged inside a hollow convex portion of a plastic strip-shaped body. The pressurized fluid is supplied to the hollow ridge portion through the fluid supply port of the pipe-shaped support rod and the shape-retaining slider, while being relatively slid inside the portion. The production method described in 1.
ック帯状型体の中空凸条部に供給することを特徴とする
請求項3に記載の製造方法。4. The method according to claim 3, wherein cold pressurized air is supplied as a pressurized fluid to the hollow ridges of the plastic strip.
帯状型体の中空凸条部相互間の凹部に押圧ベルトを捲き
かけ、プラスチック帯状型体の重なった側縁を押圧する
ことを特徴とする請求項1に記載の製造方法。5. A plastic belt-shaped body wound around an outer periphery of a mandrel, wherein a pressing belt is wound around a concave portion between hollow ridges to press overlapping side edges of the plastic band-shaped body. Item 1. The production method according to Item 1.
レルの外周に捲回したプラスチック帯状型体の中空凸条
部相互間の凹部に押圧ベルトを捲きかけ、プラスチック
帯状型体の重なった側縁を押圧することを特徴とする請
求項2に記載の製造方法。6. A winding belt is wound around a concave portion between the hollow ridges of the plastic band-shaped body wound around the outer periphery of the mandrel before the plastic band-shaped body is wound. 3. The method according to claim 2, wherein the edge is pressed.
った側縁を押圧ローラで押圧することを特徴とする請求
項2又は請求項6記載の製造方法。7. The method according to claim 2, wherein the overlapping side edges of the spirally wound plastic strip are pressed by a pressing roller.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10105710A JPH11286058A (en) | 1998-03-31 | 1998-03-31 | Production of plastic corrugated pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10105710A JPH11286058A (en) | 1998-03-31 | 1998-03-31 | Production of plastic corrugated pipe |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH11286058A true JPH11286058A (en) | 1999-10-19 |
Family
ID=14414905
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP10105710A Pending JPH11286058A (en) | 1998-03-31 | 1998-03-31 | Production of plastic corrugated pipe |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH11286058A (en) |
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US11058844B2 (en) | 2012-12-04 | 2021-07-13 | Fisher & Paykel Healthcare Limited | Medical tubes and methods of manufacture |
US11801360B2 (en) | 2013-09-13 | 2023-10-31 | Fisher & Paykel Healthcare Limited | Connections for humidification system |
US10814091B2 (en) | 2013-10-24 | 2020-10-27 | Fisher & Paykel Healthcare Limited | System for delivery of respiratory gases |
US11826538B2 (en) | 2013-12-20 | 2023-11-28 | Fisher & Paykel Healthcare Limited | Humidification system connections |
US10828482B2 (en) | 2013-12-20 | 2020-11-10 | Fisher & Paykel Healthcare Limited | Humidification system connections |
US11559653B2 (en) | 2014-02-07 | 2023-01-24 | Fisher & Paykel Healthcare Limited | Respiratory humidification system |
US10751498B2 (en) | 2014-03-17 | 2020-08-25 | Fisher & Paykel Healthcare Limited | Medical tubes for respiratory systems |
US11324911B2 (en) | 2014-06-03 | 2022-05-10 | Fisher & Paykel Healthcare Limited | Flow mixers for respiratory therapy systems |
US11712536B2 (en) | 2014-06-03 | 2023-08-01 | Fisher & Paykel Healthcare Limited | Flow mixers for respiratory therapy systems |
US10960167B2 (en) | 2015-09-09 | 2021-03-30 | Fisher & Paykel Healthcare Limited | Zone heating for respiratory circuits |
US11351332B2 (en) | 2016-12-07 | 2022-06-07 | Fisher & Paykel Healthcare Limited | Sensing arrangements for medical devices |
US11311695B2 (en) | 2016-12-22 | 2022-04-26 | Fisher & Paykel Healthcare Limited | Medical tubes and methods of manufacture |
US12076489B2 (en) | 2016-12-22 | 2024-09-03 | Fisher & Paykel Healthcare Limited | Medical tubes and methods of manufacture |
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