44results about How to "Realize large-scale automated production" patented technology

The invention discloses a method for producing ultra-high molecular weight polyethylene cotton-type anti-cutting gloves. The gloves are formed by mixing and weaving of yarns such as ultra-high molecular weight polyethylene / polyester staple fiber blended yarns, polyester spandex wrap yarns, polyvinyl chloride (PVC) coated glass fiber spandex filament yarns and elastic yarns, cuffs of woven gloves are closed up by knitted rib cuffs, hot melting edge wrapping and one-time forming are achieved through a hot melting machine at the temperature from 120 DEG C to 180 DEG C, and surface chemical processing is performed through water-proof finishing agents so that finished products can be obtained. According to the method for producing the ultra-high molecular weight polyethylene cotton-type anti-cutting gloves, the process is simple, large-scale automatic production can be achieved, the anti-cutting performance of the gloves is high, the elasticity is good, a user can conveniently and comfortably wear the gloves, and the operation is flexible. Besides, the dust-proof effect is good, and harm to products due to falling of fibers of the gloves can be avoided. The gloves can be widely applied to people in special industries such as automobile assembly industry, glass industry, metal rolling sheet industry, cutting industry, recovery processing industry, police and the like.

The invention relates to a technique for manufacturing a glove by taking ultra-strong polyethylene fibers as a base material; when weaving is carried out, the ultra-strong polyethylene fibers are adopted to weave all fingers and the first half part of the palm of the glove; the ultra-strong polyethylene fibers and urethane elastic fibers are adopted to weave the second half part of the palm in a blended way. Then surface chemical treatment is adopted to the glove to improve the wetting quality and the adhering property of the glove. Modified polyurethane resin coating and hot shaping are carried out to the fingers and the palm part of the glove. The technique of the invention has simple process, can realize large-scale automatic production and can effectively manufacture light and convenient and flexible soft anti-cut gloves that can prevent from cutting, stabbing, tearing and abrading.

A glass tube coating device, comprising a frame, the frame is provided with a glass placement frame, a locking mechanism, an overturning mechanism and a lifting mechanism, and the overturning mechanism includes a bracket, an overturning motor, a driving gear and a driven gear. The driving gear and the driven gear mesh with each other. The driven gear is a semicircular gear. The gear rotation further drives the driven gear to rotate, and further drives the glass placement rack to rotate. The glass tube coating mechanism with a new structure realizes the transformation from the horizontal state to the vertical state of the glass tube, and then cooperates with the vertical movement to realize the automatic feeding , Rotation, descent dipping coating, lifting, rotation, unloading fully automatic work, complete automatic control, can realize large-scale automatic production and greatly improve production efficiency.

The invention provides a method for manufacturing a light-emitting device. The method for manufacturing the light-emitting device comprises the steps of: (A1) obtaining a base for a light source, wherein the base is provided with a first portion and a second portion that are isolated from each other, the first portion and the second portion are connected by an insulating plastic; (A2) electricallyconnecting a first electrode of the light source to the exposed first portion, electrically connecting a second electrode to the second portion, wherein an electrical device is disposed on the firstportion and / or the second portion, and electrically connecting an external power source connected through the first part or the second part to the light source after being rectified and controlled bythe electrical device; (A3) coating the light source, the electrical device, the first part and the second part with glue. The method has the advantages of simple structure, automation and the like.

The invention discloses a solar array and a preparation method and application thereof. The solar array comprises an FPC and a plurality of flexible CIC cells arranged in sequence; the FPC comprises a bottom layer, a printed circuit layer and a top layer arranged in sequence; Several sub-circuits are arranged in the circuit-making layer; several positive pads and several negative pads are arranged on the sub-circuits; the positive pads of the sub-circuits are connected by wires and the current is led to the negative pads ; The sub-circuit and the flexible CIC battery are correspondingly arranged. The invention realizes the full flexibility of the solar cell array, so that the solar cell array has a smaller folded volume and lighter weight, the folded volume is reduced by about 80% compared with the rigid solar array, and the weight is reduced to 30%. The satellites of the same size and weight have higher power, carry more payloads, and save satellite costs and launch costs.

The invention provides a compound damping foam rubber material. The material is prepared from rubber, reinforcing filling and addition agents, wherein the addition agents comprise a vulcanizing agent, a dispersant, an anti-scorching agent, an anti-ageing agent, an accelerant, a secondary accelerant and a softening agent; the rubber is selected from at least two of silicone rubber, nitrile butadiene rubber, butadiene rubber, isoprene rubber and ethylene propylene rubber; and the addition agents also comprise a foaming agent. The compound damping foam rubber material provided by the invention has the advantages of light weight, cost reduction, good transformer oil resisting performance, good electric insulating performance and the like; a pore structure generated by foaming and the rubber material have a viscoelastic damping synergistic effect to enhance sound energy dissipation and improve noise-reduction performance of the compound damping foam rubber material; and the compound damping foam rubber material can be used as a sound-absorption and noise-reduction material to be applied to vibration absorption and noise reduction of a transformer body, and has remarkable economic and social benefits.