A solar panel cutting unit may include a frame, a transport roller unit provided at the frame to transport, in a first direction, a solar panel having a glass plate, an adhesive layer, a solar cell layer, and a backsheet layer stacked sequentially, a heating unit to heat the solar panel, a pair of pressurization roller units to pressurize and transport the solar panel, a trimmer unit that moves in a second direction perpendicular to the first direction and removes the backsheet layer, the solar cell layer, and the adhesive layer, a peeling unit that inserts a blade into the adhesive layer of the solar panel passing by the trimmer unit and removes a flexible film to which the solar cell layer and the backsheet layer is adhered, and a collection roller that collects the flexible film peeled by the peeling unit.

Method of recycling a textile material which comprises cellulose for manufacturing regenerated cellulosic molded bodies, wherein in the method the textile material is comminuted, at least a part of non-fiber-constituents of the comminuted textile material is separated from fiber-constituents of the comminuted textile material, at least a part of non-cellulosic fibers of the fiber-constituents is mechanically separated from cellulosic fibers of the fiber-constituents, at least a further part of the non-cellulosic fibers is chemically separated from the cellulosic fibers, and the molded bodies are generated based on the cellulosic fibers after mechanically separating and chemically separating.

Provided is a method of recycling carbon fibers that allows obtaining continuous carbon fibers. The present embodiment is a method of recycling carbon fibers that includes preparing a carbon fiber reinforced plastic molded product including carbon fiber reinforced plastic containing carbon fibers and a resin and drawing the carbon fiber reinforced plastic while performing a heating treatment on the carbon fiber reinforced plastic molded product. A temperature of the heating treatment is equal to or above a glass-transition temperature of the resin and below a thermal decomposition start temperature, and the temperature is below a thermal degradation temperature of the carbon fibers.

A method of producing a chemical pulp from a textile material which comprises cellulose for manufacturing regenerated cellulosic molded bodies, wherein in the method the textile material is comminuted, at least a part of non-fiber-constituents of the comminuted textile material is separated from fiber-constituents of the comminuted textile material, at least a part of non-cellulosic fibers of the fiber-constituents is mechanically separated from cellulosic fibers of the fiber-constituents, at least a further part of the non-cellulosic fibers is chemically separated from the cellulosic fibers, and producing regenerated molded bodies from the chemical pulp based on the cellulosic fibers after mechanically separating and chemically separating.

The embodiments discussed herein are related to a steam peeling device for an automobile tinting film comprising: a steam tarpaulin in the form of a rectangular oval; a wire frame sleeve seam part in which an outer seam part of the steam tarpaulin is rolled, folded and sewn at regular intervals; and a steam jack formed by fusion on one side of the middle of the steam tarpaulin; and a steam peeling device body in which a wire frame band having a certain length is inserted into the wire frame sleeve seam part, and a banding adjusting pinial formed at the end thereof are cross-pulled out to the upper edge slit in the middle part of the welding end of the steam tarpaulin wire frame sleeve seam part, the improvement of which includes: a wire frame banding module that is rivet assembled on both surfaces of the steam tarpaulin in contact with a slit in the middle part of the upper side border of the wire frame sleeve seam part, a wire frame sleeve stainless pipe in which a banding hole is cut and formed in the middle; a wire frame banding top plate having a length and a constant width standard of the wire frame sleeve stainless pipe, which is assembled in the front part of the steam tarpaulin of a portion where both ends of the wire frame band 4 intersect and protrude on both sides of the banding hole of the wire frame sleeve stainless pipe via the inside of the wire frame sleeve seam part; a pair of tapered slit fitting members that is integrally protruded and formed at the standard intervals of the banding holes on both sides of the upper border of the wire frame banding top plate; a U-shaped groove that is formed in a back face border of the upper side end of the tapered slit fitting member and a back face border on the lower side of the wire frame slit top plate; a pair of gripping parts that are formed to protrude at a predetermined interval to the right and left in the middle part of the front face of the wire frame banding top plate; a wire frame fixing groove that is formed in the vicinity of the wire frame banding top plate inside the pair of gripping parts; a cover plate which is a rectangular member having a standard corresponding to the back face part of the wire frame banding top plate; and a plurality of rivet holes that are penetrated opposite to each other in the wire frame banding top plate and the cover plate. The steam peeling device of the present invention solves the problem of the conventional case that the wire frame banding is loosened during the steam peeling operation, the steam tarpaulin is separated, or a part of the steam is released, and thereby solves the trouble of resetting the wire frame banding during operation, thereby l

The embodiments disclosed are related to a steam peeling device for an automobile tinting film which includes: a wire frame banding module, a wire frame sleeve stainless pipe; a wire frame stent top plate; a pair of tapered slit fitting members; a U-shaped groove; a pair of gripping parts; a wire frame fixing groove; a cover plate; and a plurality of rivet holes. The steam peeling device of the present invention solves the problem of the conventional case that the wire frame banding is loosened during the steam peeling operation, the steam tarpaulin is separated, or a part of the steam is released, and thereby solves the trouble of resetting the wire frame banding during operation, thereby lowering the product unit cost through product productivity and function improvement, and reducing the time and labor costs further without resetting during operation along with the convenience of operation.

The present invention relates to a process for recycling a polyester film that includes comminuting a used polyester film to shreds, the used polyester film including a polyethylene terephthalate polymer, melting the shreds in a twin-screw or multi-screw extruder, filtering the melt, and pelletizing. The present invention further relates to a process for producing a biaxially oriented polyester film that includes melting PET pellets in an extruder, at least 10% by weight of the pellets having been obtained by the process of the invention for recycling a polyester film. The present invention further relates to pellets and to a biaxially oriented polyester film, obtained by the processes of the invention, and also to the use thereof.

A method for separating materials of various type having different softening temperature values, includes pouring a mixture of flakes and fragments of materials on a movable receiving and conveying device in a uniformly distributed manner and advancing it along a first portion of path; actuating an electromagnetic inductor to heat an outer metal surface by electromagnetic induction, which surface is included in the movable receiving and conveying device to achieve a first lower softening temperature corresponding to a first material of the mixture; subjecting the mixture to a separating action during which a first fraction, remains stuck to the outer metal surface, whereas a remaining second fraction of materials having higher softening temperatures than the first softening temperature freely slips by gravity towards a lower receiving zone.

Methods for the recycling of carpet are disclosed that produce clean face fiber suitable for industrial use. The methods allow the recovery of face fiber material, for example a polyester or a polyamide, from carpets that includes a face fiber material and a backing material, and include the steps of heating the carpet to a temperature lower than the melting point of the face fiber material, but higher than the initial thermal decomposition temperature of the backing material, for a time and at a temperature sufficient to thermally decompose, pyrolyze, or oxidize at least a portion of the backing material, rendering the backing material friable, that is more friable than the untreated backing; and applying mechanical force to the carpet so as to liberate the friable backing material from the face fiber material.

Techniques recycle plastics in multiple successive process steps. A polymer, preferably a recyclable material, is melted using a discharge extruder, filtered using a first filter device under a positive pressure atmosphere, filtered and degassed using a degassing device, and discharged using a discharge extruder. The degassing device has at least one filter element and a vacuum chamber with a negative pressure atmosphere for filtering and degassing purposes, wherein the plastic melt can be conducted into the negative pressure atmosphere of the vacuum chamber through the filter element.