JPS58187479A - Method for bonding outer covering material to flexible sealing material - Google Patents
Method for bonding outer covering material to flexible sealing materialInfo
- Publication number
- JPS58187479A JPS58187479A JP57070616A JP7061682A JPS58187479A JP S58187479 A JPS58187479 A JP S58187479A JP 57070616 A JP57070616 A JP 57070616A JP 7061682 A JP7061682 A JP 7061682A JP S58187479 A JPS58187479 A JP S58187479A
- Authority
- JP
- Japan
- Prior art keywords
- sealing material
- adhesive
- outer covering
- hopper
- cloth
- 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.)
- Granted
Links
Landscapes
- Extrusion Moulding Of Plastics Or The Like (AREA)
- Adhesives Or Adhesive Processes (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は摺動部のシール材として用いられる断面中空の
可撓弾性シール材外表面に布等を自動的に貼付するよ5
にした方法に関するものでル)る。DETAILED DESCRIPTION OF THE INVENTION The present invention automatically attaches cloth or the like to the outer surface of a flexible elastic sealant having a hollow cross section and used as a sealant for sliding parts.
It concerns the method of
Φ両のパ゛ノンブ式シートベルト装置のベルトカイトア
ームや変速操作用のシフトレバ−等ノ移動部利の摺動部
のシールを行うべく断面中空の口■撓弾性体を用いた場
合、シール機能は高いものが得られる反面摺動摩擦抵抗
が大きく、ために操作性、移動性の点で最良とはいい難
く、且つ摩擦抵抗でシール材が早期劣化する虞れもある
。一方、シール材として摺動部に刷子状のものを設ける
ことも行われるが、これによるとシール性の点で最良を
期し難い。Hollow cross-sectional opening to seal sliding parts of moving parts such as the belt kite arm of a two-piece pannon-type seat belt device and the shift lever for speed change operation ■Sealing function when using a flexible elastic body Although high performance can be obtained, the sliding friction resistance is large, so it is difficult to say that it is the best in terms of operability and mobility, and there is also a risk that the sealing material will deteriorate prematurely due to the frictional resistance. On the other hand, a brush-like material is sometimes provided on the sliding portion as a sealing material, but this makes it difficult to achieve the best sealing performance.
そこでト記可動弾性シール材の少くとも摺動面に摩擦係
数の小さい、摺動抵抗を緩和する布等を貼設することに
よりシール性の向上と摺動抵抗を軽減するととができる
。かかる可撓弾性シール材の外表面に布等を貼設する場
合、シール材が可撓体であり、且つ中空であるためこれ
の断面形状に適う芯材を用意し、これにシール材を巻ぎ
付け、シール材の外形を保持してハケ等でシール材外表
面に接着剤を塗布し、その上から布等を貼り合せる必要
があり、これを手作業で行ったのでは作業性が極めて悪
(、量産性、コスト等の点で不利である。Therefore, it is possible to improve the sealing performance and reduce the sliding resistance by attaching a cloth or the like that has a small coefficient of friction and alleviates the sliding resistance to at least the sliding surface of the movable elastic sealing material. When attaching cloth or the like to the outer surface of such a flexible elastic sealing material, since the sealing material is flexible and hollow, a core material that matches the cross-sectional shape of the material is prepared, and the sealing material is wrapped around it. It is necessary to hold the outer shape of the sealant, apply adhesive to the outer surface of the sealant with a brush, etc., and then paste cloth, etc. on top of it. If this was done manually, it would be extremely difficult to work. (It is disadvantageous in terms of mass production, cost, etc.)
本発明は以I−を改善丁べ(なされたもので、その目的
とする処は、断面中空の可撓弾性シール材の外表面に自
動的に布等を貼着せしめ得る如くし、/−ルf1に優れ
、摺動摩擦抵抗の少ないシール材を簡易、安価に且つ効
率良く企図することができく)可撓性シール材の外被材
貼付方法を提供するにある。The present invention has been made to improve the following points, and its purpose is to automatically attach a cloth or the like to the outer surface of a flexible elastic sealing material having a hollow cross section. To provide a method for attaching an outer cover material to a flexible sealing material, which allows a sealing material that is excellent in f1 and has low sliding friction resistance to be designed simply, inexpensively, and efficiently.
次)C本発明の好適一実施例を添付図面に従って詳述す
る。Next) A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.
第1図は本発明方法の一実施例としての装置の縦断側面
図を、第2図及び第3図は第1図2−2線及び3−3線
断面図を、第4図は布を貼着したシール材の断面図であ
る。FIG. 1 is a vertical side view of an apparatus as an embodiment of the method of the present invention, FIGS. 2 and 3 are sectional views taken along lines 2-2 and 3-3 in FIG. FIG. 3 is a cross-sectional view of the attached sealant.
1は射出成形機で、これの射出シリンダ2内には軸方向
に射出スクリュー3が回動自在に嵌挿され、シリンダ2
の下流上には材料投入用ホッパ4か設げら才1、ホッパ
4内には合成樹脂等の粉末やペレット状の祠料5が収納
貯溜され、ホッパ4の漏・1状底部かl:、 面下され
た連結管4aがシリンダ20当該部分1.に連通接続し
、ホッパ4内とシリンダ2内とは連結管4aで連通し、
連結管4a外周には材料加熱溶融用のヒータ6が設けら
れている。シリンダ2の先端部2aは絞られ、これに合
せてスクリュー3の先端部3aも先細顆状とし、先端部
2aには所定形状の射出隙間7を形成した射出ヘッド8
を連結し、隙間7とシリンダ2内とは連通している。Reference numeral 1 denotes an injection molding machine, in which an injection screw 3 is rotatably fitted in the injection cylinder 2 in the axial direction.
A hopper 4 for inputting materials is provided downstream and upstream of the hopper 4. Powder such as synthetic resin and abrasive material 5 in the form of pellets are stored and stored in the hopper 4. , the lowered connecting pipe 4a is connected to the cylinder 20 at the relevant part 1. The inside of the hopper 4 and the inside of the cylinder 2 are connected through a connecting pipe 4a,
A heater 6 for heating and melting the material is provided on the outer periphery of the connecting pipe 4a. The distal end 2a of the cylinder 2 is narrowed, and the distal end 3a of the screw 3 is also shaped into a tapered condyle, and an injection head 8 has an injection gap 7 of a predetermined shape formed in the distal end 2a.
are connected, and the gap 7 and the inside of the cylinder 2 are in communication.
ヘッド8の上方には潤滑油供給ホッパ9を設け、これの
連通管9aをヘッド8内に連通接続し、ヘッド8に部に
設けたホッパ9の連通管9aは射出隙間7の中央部に前
方に開口した供給通路10と連通接続する。A lubricating oil supply hopper 9 is provided above the head 8, and its communication pipe 9a is connected to the inside of the head 8. The supply passage 10 is connected to the supply passage 10 which is open to the supply passage 10 .
以北において、ホッパ4からシリンダ2内に供給される
材料は投入手前でヒータ6により加熱溶融され、シリン
ダ2内に投入され、スクリュー3の駆動で前方に送られ
、先端部2aを経て隙間7から前方に所定断面形状に押
し出され、例えば第4図の如き中空の可撓弾性シール材
31を成形し、シール材31は同断面で連続的にチュー
ブ状に成形され、同断面で連続的に押し出される。押し
出さ才lたシール材の成形体W内にはこれの送り方向に
スライダ11を臨ませ、スライダ11で成形体Wの外形
を保持し、一方、通路10からは既述の潤滑油ホッパ9
内に貯溜した潤滑油12を成形体W内に供給し、スライ
ダ11周と成形体W内周WIとの間を潤滑し、成形体W
の送りを円滑ならしめる。スライダ11は軸方向両端が
丸く、送給される成形体Wを保形し、成形体W外周のス
ライダ11の1−光端11b、或はこれの近傍上に接着
剤14貯溜用のホッパ13を設け、これの垂下したノズ
ル13aから成形体Wの外周W2に接着剤を供給し、塗
布する。スライダ11の長さ方向中間部の成形体W外周
には貼付用ローラ15を設す、これの上流に成形体外周
に貼着する外被材である布16のロール17を配設し、
ロール17から布16を繰り出してローラ15−ト流か
ら成形体W外周に重ね合せ、手前で塗布した接着剤によ
り布16を成形体W外周に貼着する。スライダ11の先
端部11a下流にはローラ18を−L下に設け、この間
の間隔を狭(し、これによりスライダ11の下流方向へ
の移動を防止し、併せて布貼着後の成形体を挾搾再加圧
し、これを経由した成形体を所定寸法に裁断し、第4図
の如きシール材31を得る。To the north, the material supplied from the hopper 4 into the cylinder 2 is heated and melted by the heater 6 before being charged, is charged into the cylinder 2, is sent forward by the drive of the screw 3, passes through the tip 2a, and enters the gap 7. The sealing material 31 is extruded forward into a predetermined cross-sectional shape to form a hollow flexible elastic sealing material 31 as shown in FIG. being pushed out. A slider 11 is placed inside the molded body W of the extruded sealing material in the direction in which it is fed, and the slider 11 maintains the outer shape of the molded body W. On the other hand, from the passage 10, the previously described lubricating oil hopper 9 is provided.
The lubricating oil 12 stored inside is supplied into the molded body W to lubricate between the slider 11 circumference and the molded body W inner circumference WI, and the molded body W
smooth the feeding. The slider 11 has round ends in the axial direction to maintain the shape of the molded product W to be fed, and a hopper 13 for storing the adhesive 14 is placed on the 1-light end 11b of the slider 11 on the outer periphery of the molded product W or near this. is provided, and the adhesive is supplied and applied to the outer periphery W2 of the molded body W from its hanging nozzle 13a. A pasting roller 15 is provided on the outer periphery of the molded body W at the intermediate portion in the length direction of the slider 11, and a roll 17 of cloth 16, which is a covering material to be pasted to the outer periphery of the molded body, is disposed upstream of the roller 15.
The cloth 16 is let out from the roll 17 and superimposed on the outer periphery of the molded body W through the flow of the roller 15, and the cloth 16 is stuck to the outer periphery of the molded body W using the adhesive applied in the front. A roller 18 is provided below -L downstream of the tip 11a of the slider 11, and the interval between the rollers is narrowed (this prevents the slider 11 from moving in the downstream direction, and also prevents the molded body from attaching the cloth. The molded product is squeezed and re-pressed and cut into a predetermined size to obtain a sealing material 31 as shown in FIG. 4.
第4図は上記で得られるシール材の一例を示し、シール
材31の本体32は可撓中空体をなし、中空の本体32
の一側に断面U字型の係止部33を一体に備え、係止部
33を除く外周に既述の布34が貼着されている。FIG. 4 shows an example of the sealing material obtained above, in which the main body 32 of the sealing material 31 forms a flexible hollow body, and the hollow main body 32
A locking portion 33 having a U-shaped cross section is integrally provided on one side, and the above-mentioned cloth 34 is adhered to the outer periphery excluding the locking portion 33.
以にのシール材31は例えば第5図乃至第7図に示され
る如きパッシブ式シートベルト装置のシートヘルド41
の装着、解除を自動的に行うベルトガイドアーム42の
シール部材として用いられる。図において43はフロア
で、フロア43の中央のトンネル部43aの左右にはシ
ー) 44.44が配設され、トンネル部43a十に前
後方向にセンターカバー45が配設され、センターカバ
ー45内には断面凹型の支持部材46を設け、支持部材
46の両側にガイドレール47.47を設け、これにベ
ルトガイドアーム42のL型に折曲した基部のローラ4
8を転勤自在に嵌装し、アーム42はセンターカバー4
5−Fの両側に設けた開口部49゜49からl一方に延
出され、アーム420前後動で7−トベルト41の装着
、解除を行う。開口部49゜490両内側は下方に折曲
垂下された対称形状をなし、折曲垂下された係止部49
a、49aにシールイ:431の係止部33を係止し、
膨出した本体32は対称的に向い合って接し、開口部4
9を塞ぎ、布34が向い合って接し、この間にアーム4
2が臨む。アーム42の移動時シール材は変形し、アー
ム42周に密着してシールし、アーム42の移動はシー
ル材の外表面に布34が貼着されているため摩擦抵抗が
大幅に減少し、アームの作動の円滑とシール材の摩擦に
よる劣化、摩耗を抑制する。The sealing material 31 described above is used, for example, in a seat heald 41 of a passive seat belt device as shown in FIGS. 5 to 7.
It is used as a sealing member for the belt guide arm 42 that automatically attaches and releases the belt. In the figure, 43 is a floor, and seats 44 and 44 are provided on the left and right of the tunnel portion 43a at the center of the floor 43, and a center cover 45 is provided in the front and back direction in the tunnel portion 43a. A supporting member 46 with a concave cross section is provided, guide rails 47 and 47 are provided on both sides of the supporting member 46, and a roller 4 at the base of the belt guide arm 42 bent into an L shape is provided.
8 is fitted so that it can be transferred freely, and the arm 42 is attached to the center cover 4.
It extends to one side from openings 49° 49 provided on both sides of 5-F, and the 7-toe belt 41 is attached and released by moving the arm 420 back and forth. The opening 49°490 has a symmetrical shape with the inner sides bent downward, and the locking part 49 is bent and hung downward.
a, lock the locking part 33 of the seal 431 on 49a,
The bulged bodies 32 symmetrically face each other and abut, and the opening 4
9, the cloths 34 face each other and touch each other, and between this, the arm 4 is closed.
2 is coming. When the arm 42 moves, the sealing material deforms and tightly seals around the arm 42, and when the arm 42 moves, the cloth 34 is attached to the outer surface of the sealing material, so frictional resistance is greatly reduced, and the arm 42 is moved. Smooth operation and suppresses deterioration and wear caused by friction of sealing material.
第8図はソフトレバー142のシール材として用いた実
施例を示し、センターコンソール145の中央の開口部
149がらシフトレバ−142がヒ万に突設され、7フ
トレバー142の前後動で7−7ト操f/1を行う。第
9図の実施例におけるシール月131は既述と同様に中
空のもの°を用い、摺動部外表面に布134が貼着され
ている。FIG. 8 shows an embodiment in which the soft lever 142 is used as a sealing material, in which the shift lever 142 is protruded from the opening 149 in the center of the center console 145, and the back and forth movement of the 7-foot lever 142 moves the 7-7 lever. Perform operation f/1. In the embodiment shown in FIG. 9, the seal 131 is hollow as described above, and a cloth 134 is attached to the outer surface of the sliding portion.
第10図、第11図はスライディングルーフのサンシェ
ードのシールに用いた実施例を示す。FIGS. 10 and 11 show an embodiment used for sealing a sunshade of a sliding roof.
車両351のルーフ352に開口353を設け、該開口
353を開閉するスライディングルーフ354を備え、
スライディングルーフ354の両側部の下にはスライデ
ィングルーフフレーム355で支持されたガイドレール
356を備え、これに嵌挿したスライダ357をスライ
ディングルーフ354にブラケット358で連結し、レ
ール356内でのスライダ357の摺動でルーフ354
を開閉し、レール356の内側には内側方に開放した一
次レール359を設け、これにサンシェード3600両
端を嵌合し、一方、レール359下のフレーム355内
端に外周面に布334を貼着しタシール材331を係着
保持せしめ、サンシェード360の摺動部をシールし、
布により摺動摩擦抵抗は軽減される。An opening 353 is provided in a roof 352 of a vehicle 351, and a sliding roof 354 that opens and closes the opening 353 is provided,
Guide rails 356 supported by a sliding roof frame 355 are provided below both sides of the sliding roof 354, and a slider 357 fitted thereon is connected to the sliding roof 354 with a bracket 358. Sliding roof 354
A primary rail 359 that opens and closes inward is provided inside the rail 356, and both ends of the sunshade 3600 are fitted to this, while a cloth 334 is attached to the outer peripheral surface of the inner end of the frame 355 below the rail 359. The sunshade seal material 331 is engaged and held, and the sliding part of the sunshade 360 is sealed.
The sliding friction resistance is reduced by the cloth.
第12図は更なる変更実施例を示し、起倒自在なリヤシ
ートバック461の背面462にこれの起ケ状伸でリヤ
トレイ463の前端を当接し、リヤ]・レイ463の前
端に同様のシール材431を取り付けたものである。FIG. 12 shows a further modified embodiment, in which the front end of the rear tray 463 is brought into contact with the back surface 462 of the rear seat back 461 which can be raised and folded, and the front end of the rear tray 463 is covered with a similar sealing material. 431 is attached.
以)一実施例について詳述したが、外周に貼着する外板
4Nは布に限られずシート状で摩擦係数の小さいもので
あれば任意に選択することができる。Hereinafter, one embodiment has been described in detail, but the outer plate 4N to be attached to the outer periphery is not limited to cloth, but can be arbitrarily selected from any sheet-like material with a small coefficient of friction.
第13図は製造方法の変更実施例で、スライダ11を用
いず、射出ヘッド8がら射出された中空チューブ状の成
形体Wの内側に潤滑油0を供給し、潤滑油はホッパ9内
に貯溜された状態ポンプPで加1にし、加圧されたもの
を成形体W内に供給し、こわの外形を保持するようにし
た。尚他の部分は前記と同様であるため同一部分には同
一符号を付し2、詳細な説明は省略する。FIG. 13 shows a modified example of the manufacturing method, in which the slider 11 is not used and lubricating oil 0 is supplied to the inside of the hollow tube-shaped molded body W injected from the injection head 8, and the lubricating oil is stored in the hopper 9. In this state, the pressure was increased to 1 using the pump P, and the pressurized material was supplied into the molded product W to maintain the stiff outer shape. Since the other parts are the same as those described above, the same parts are denoted by the same reference numerals 2, and detailed explanation will be omitted.
以りで明らかな如く本発明によれば、シール性をj坊ぬ
るべくシール材を中空可撓弾性体とした場合にオ6いて
も、摺動部の布等により摺動摩擦抵抗な可及的に軽減し
、シール材の摩耗、劣化を防止(、これの寿命、耐久性
を向上せしめ、かがる布等を外表面に貼着等したシール
材を自動的に簡易に安価に量産化することができる等多
大の利点を有する0As is clear from the above, according to the present invention, even if the sealing material is made of a hollow flexible elastic body in order to improve the sealing performance, the sliding friction resistance can be minimized by the fabric of the sliding part, etc. This will reduce the wear and tear and deterioration of the sealing material (improve its lifespan and durability, and automatically mass-produce sealing materials such as pasting cloth, etc. on the outer surface) easily and inexpensively. 0, which has many advantages such as being able to
図面は本発明の一実施例を示すもので、第1図はシール
材の成形及び外被材貼着工程を説明する縦断側面図、第
2図及び第3図は第1図2−2線及び3−3線断面図、
第4図はシール材の端断面図、第5図はパッシブ式シー
トベルト装置の要部の縦断正面図、第6図は同要部拡大
図、第7図は同斜視図、第8図はセンターコンソール及
びシフトレバ−の斜視図、第9図は回部の縦断正面図、
第10図はスライディングルーフ装置の外形斜視図、第
11図は同要部縦断正面図、第12図はりャシートの後
方に設けられるリヤトレイに実施した例の斜視図、第1
3図は製造方法の変更実施例を示す説明図である。
尚図面中1は成形機、Wはソール材のペースである成形
体、11は芯材、14は接着剤、16は外被材である。
第9図The drawings show one embodiment of the present invention, and FIG. 1 is a vertical cross-sectional side view illustrating the sealing material molding and outer cover material adhesion process, and FIGS. 2 and 3 are taken along the line 2-2 in FIG. 1. and 3-3 line sectional view,
Fig. 4 is an end sectional view of the sealing material, Fig. 5 is a longitudinal sectional front view of the main parts of the passive seat belt device, Fig. 6 is an enlarged view of the main parts, Fig. 7 is a perspective view of the same, and Fig. 8 is A perspective view of the center console and shift lever, FIG. 9 is a longitudinal sectional front view of the rotating section,
Fig. 10 is an external perspective view of the sliding roof device, Fig. 11 is a longitudinal sectional front view of the same main part, Fig. 12 is a perspective view of an example implemented on a rear tray provided behind the carrier seat, and Fig. 1
FIG. 3 is an explanatory diagram showing a modified example of the manufacturing method. In the drawing, 1 is a molding machine, W is a molded body which is a sole material paste, 11 is a core material, 14 is an adhesive, and 16 is an outer cover material. Figure 9
Claims (1)
面の該シール材の送り出し方向に裏拐手段を臨ませ、該
裏打手段でシール材の外形を保持し、該シール材の外周
に接着剤を供給塗布し、該接着剤の下流からシール材外
周に外被十イを重ね合せる如(供給し、芯材下流で外被
材。 シール材を挾搾抑圧してシール材を外被材に貼着するよ
5Kt、たことを特徴とする可撓シール拐の外被材貼付
方法。[Claims] A hollow flexible sealing material which is injection molded or the like having a hollow cross-section has a lining means facing in the feeding direction of the sealing material, the outer shape of the sealing material is held by the lining means, and the outer shape of the sealing material is held by the lining means. Apply the adhesive to the outer periphery of the sealing material, and overlap the outer sheathing material from downstream of the adhesive to the outer periphery of the sealing material. A method for attaching a flexible seal material to an outer covering material, characterized in that it takes 5Kt to adhere a sealing material to an outer covering material.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57070616A JPS58187479A (en) | 1982-04-27 | 1982-04-27 | Method for bonding outer covering material to flexible sealing material |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57070616A JPS58187479A (en) | 1982-04-27 | 1982-04-27 | Method for bonding outer covering material to flexible sealing material |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS58187479A true JPS58187479A (en) | 1983-11-01 |
| JPS6350393B2 JPS6350393B2 (en) | 1988-10-07 |
Family
ID=13436711
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP57070616A Granted JPS58187479A (en) | 1982-04-27 | 1982-04-27 | Method for bonding outer covering material to flexible sealing material |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS58187479A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2012520208A (en) * | 2009-03-19 | 2012-09-06 | フラウンホーファー−ゲゼルシャフト・ツール・フェルデルング・デル・アンゲヴァンテン・フォルシュング・アインゲトラーゲネル・フェライン | Method and apparatus for adhesively bonding large surface components in a vehicle structure |
| US9011618B2 (en) | 2009-03-19 | 2015-04-21 | Airbus Operations Gmbh | Method for applying adhesive according to tolerance in vehicle construction |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP5565070B2 (en) | 2010-04-26 | 2014-08-06 | 住友電気工業株式会社 | Silicon carbide crystal and method for producing silicon carbide crystal |
-
1982
- 1982-04-27 JP JP57070616A patent/JPS58187479A/en active Granted
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2012520208A (en) * | 2009-03-19 | 2012-09-06 | フラウンホーファー−ゲゼルシャフト・ツール・フェルデルング・デル・アンゲヴァンテン・フォルシュング・アインゲトラーゲネル・フェライン | Method and apparatus for adhesively bonding large surface components in a vehicle structure |
| US8968500B2 (en) | 2009-03-19 | 2015-03-03 | Airbus Operations Gmbh | Method and device for adhesively joining large-surface components in vehicle construction |
| US9011618B2 (en) | 2009-03-19 | 2015-04-21 | Airbus Operations Gmbh | Method for applying adhesive according to tolerance in vehicle construction |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6350393B2 (en) | 1988-10-07 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JPS63306152A (en) | Film drive unit | |
| GB2160920A (en) | Sealing strip | |
| GB2212844A (en) | Sealing strip | |
| US4698193A (en) | Method and apparatus for producing sealing strips and similar profiled strips of rubber and rubber-like elastomers | |
| JPS647571B2 (en) | ||
| US3849225A (en) | Method of forming an applicator construction | |
| CN111959093A (en) | Non-woven fabric production process | |
| JPS58187479A (en) | Method for bonding outer covering material to flexible sealing material | |
| JP3223475B2 (en) | Waterproof fastener and manufacturing method thereof | |
| CN100378350C (en) | Method for producing a clip-on fastening system and corresponding clip-on fastening system | |
| CN204736488U (en) | Semi -automatic cover bag of EPS, seam end machine | |
| JPS6246780A (en) | Waterproof rubber applying device for window frame | |
| CN114318692A (en) | Automatic sewing equipment of end of a thread for zip fastener production | |
| WO2004108459A1 (en) | Method for applying a weatherstrip | |
| GB1525410A (en) | Manufacture of tampons | |
| JP2004155237A (en) | Ornament edge member for vehicle, and its manufacturing method | |
| CN114209134B (en) | Waterproof zipper film pasting device for clothing manufacturing | |
| JPH08151238A (en) | Method for fitting molded strip to window glass | |
| CN109703981B (en) | Semi-automatic rubber coating equipment for driving roller of belt feeder | |
| JPH0547640Y2 (en) | ||
| JPH06227B2 (en) | How to apply adhesive | |
| CN109130035B (en) | Glue filling mould | |
| JPH02170869A (en) | Apparatus for bonding silicone-based sheetlike material to sealing tape | |
| JPS61252129A (en) | Manufacture of hollow skin body | |
| JPS5841160Y2 (en) | Bag with an opening that can be opened and closed |