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ゴミ袋を穿孔する完全自動サーボ穿孔機-RF + W2シリーズ
カテゴリー : プラスチック袋製袋機
●ドイツは印刷マークを正確に把握できる高感度フォトセルデバイスを製作しました。 ●印刷位置が間違っていると、自動的に停止します。
Blister Packing Machine
カテゴリー : カプセル/錠剤包装機
フラットサーキュラーナイフ
カテゴリー : カッティング・スリッティング部品
多層ストレッチ フード インフレーション フィルム マシン
カテゴリー : ブローンフィルム押出機
人々は、ストレッチ ラップ フィルムをストレッチ フード フィルムに置き換えます。ストレッチフードフィルムは優れた保持力と抜群の伸縮性を持ち、荷物をしっかりカバーし、積み重ねた袋の型崩れを防ぎます。物流輸送におけるセキュリティを大幅に向上させます。さらに、商品を保護するための高い耐パンク性と、貨物の内容を識別し、ラベルをスキャンするのに役立つ優れた透明性を提供します。仕様 レイヤー: 3 / 5 レイヤー 分配比率: 1:2:1、1:3:1、1:1:2:1:1、1:2:4:2:1 など。フィルム幅:1500~1850mm 出力:280~450kg/hr
EMI SHIELDING
カテゴリー : Industrial Parts & Safety Gear
Protect parts from electromagnetic interference. It is used to protect electrical signals from the outside world. Currently, construction methods for anti-EMI are electric plating, sputtering, spraying, electric paint, or the direct use of the shielding effect of metal materials, such as the use of stainless steel, aluminum, iron or aluminum-magnesium alloy, and other materials. The metal piece of masking is low cost and meets current environmental regulations. But the processing and assembly are complex and miscellaneous and are poor stability. Water electroplating, electric plating, conductive paint, and other environmental laws and regulations conflict or doubt, the establishment of the new plating plant is not easy in the future and will gradually be phased out and replaced. So far, workers using a vacuum sputtering process and the magnesium alloy should be the main way to effectively combat EMI.
カッターコンパクターナイフ
カテゴリー : カッティング・スリッティング部品
ギアカップリング
カテゴリー : 変速機・モーター・駆動システム
(1)クラウン付きの歯は、シャフトの許容誤差を大きくし、荷重を大きくすることができました。 (2)高強度・耐摩耗性を備えた特殊硬化処理。 (3)クローズドタイプカップリング-潤滑が容易で防塵性があり、漏れがありません。 (4)TIEN YI GEAR SHAFTS COUPLINGSのタイプは、最初の処理で成功しました。材料に応じて、2番目の手順で再度熱処理を行う必要があります。そしてそれは彼らにより厳密に正確に与えられ、より強い粘り強さを増しました。これらのステップがすべて終了したら、ついにボールベアリングを打って重力を取り除きます。
KW-F2 SEMI-AUTO CAPSULE FILLING MACHINE
カテゴリー : カプセル/錠剤包装機
KW will further improve the design of the original machine type vertical semi-automatic capsule filling machine KW-F2 to introduce the improved horizontal type of semi-automatic capsule filling machine
JB-CD Latex Condom Dipping Machine
カテゴリー : ゴム浸漬機
Condom manufacturing machine process Collecting the raw materials Rubber latex is obtained from the milky fluid produced by various tropical plants. Latex is actually an emulsion or dispersion of tiny rubber particles in water, and ingredients added to the latex must be able to attach to the rubber particles during compounding. Compounding Next, chemical additives are mixed to form a paste. This paste is then blended with the liquid latex in a process called compounding. Storage The latex and chemical compound is then unloaded into drums for storage, where it remains for approximately seven days. During this period, vulcanization chemically strengthens the bonds of the rubber. The storage time also allows any air, which might have been trapped in the mixture during compounding, to escape. Dipping The compound is then added to the dipping or condom-forming machine. The dipping machine is a long, hooded machine approximately 100 feet (30.5 m) in length. Thick tempered glass rods move along a closed belt between two circular gears. The belt drags the rods, which are called mandrels, through a series of dips into the latex compound. The mandrels rotate to spread the latex evenly. Several coats are required to build the condom to its required thickness. Between each dip, the latex is hot air dried. After the final dipping and drying, the condoms automatically roll off the mandrels. A machine shapes and trims the ring of latex at the base of each condom. Tumbling Next, the condoms are put in a tumbling machine, where they are coated with talc or another similar powder to prevent the rubber from sticking to itself. Testing After a curing period of several days, the condoms are sampled by batch and tested for leaks and strength. The first such test is the inflation test, in which the condom is filled with air until it bursts. Condoms are required to stretch beyond 1.5 cubic feet, about the size of a watermelon, before bursting. This test is considered most important because the elasticity of the condom keeps it from tearing during inter-course. In the water-leakage test, the condom is filled with 10 ounces (300 ml) of water and inspected for pin-sized holes by rolling it along blotter paper. Condoms are also tested electronically. This involves mounting each condom on a charged stainless steel mandrel. The mandrel is passed over by a soft, conductive brush. If pin holes are present, a circuit will be established with the mandrel, and the machine will automatically reject the condom. Packaging Condoms that have successfully passed these tests are rolled by a machine. Rolling the condom makes it easier to package and use. Lubricant and spermicide may be applied by a metering pump just before the top wrap is added in the foiling process.
