RU2573871C2 - Processing of pvc wastes - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to processing of secondary stock and is meant for processing of PVC wastes. It can be used at plastic and plastic wastes processing enterprises. Claimed process comprises the PVC wastes receipt by the intake bin, PVC wastes sorting, PVC wastes grinding, mixing at the extruder and article moulding. Stabilizing additives, for example, barium stearate, carboxylated lead or calcium, are added at mixing in the extruder. These are added to create the appropriate PVC processing conditions at up to 200-240°C for extraction of chlorine from the melt at control at said temperatures.

EFFECT: higher efficiency and reliability.

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Description

The invention relates to the field of processing of secondary raw materials and is intended for the processing of PVC waste (polyvinyl chloride), can be used in enterprises processing plastics and their waste.

The closest analogue is a method for recycling PVC waste, including receiving PVC waste using a receiving hopper, sorting PVC waste, crushing, mixing in an extruder and forming the product (Patent RU No. 22326899, C08J 11/00, published on 06/20/2008).

In this method, chlorine is randomly liberated when heated to 100 ° C, which does not allow the processing of PVC waste at higher temperatures, which reduces productivity and reliability.

The problem to which the invention is directed, is to increase productivity and reliability.

The technical result is achieved by the fact that in the method for processing PVC waste, including receiving PVC waste using a receiving hopper, sorting PVC waste, crushing, mixing in an extruder and forming an article, according to the invention, stabilizing additives, for example, barium stearate, carboxylate, are fed into the extruder lead or calcium, to create conditions for processing PVC in the melt at temperatures up to 200-240 ° C for the release of chlorine from the melt under control at the indicated temperatures.

The technical result achieved by using the invention coincides with the technical problem.

The addition of stabilizers, for example, barium stearate, lead carboxylate or calcium, when mixed in an extruder, creates conditions for processing PVC in the melt at temperatures up to 200-240 ° C to separate chlorine from the melt under control at the indicated temperatures, which increases productivity and reliability.

The method is illustrated in the drawing, which shows a device for implementing the method.

To implement the method, the following device is used.

A device for processing PVC waste contains a receiving hopper 1, a waste sorting zone for PVC 2, a crushing zone 3, a mixing zone in the extruder 4 and a product forming zone 5. The mixing zone in the extruder 4 is equipped with a device configured to supply the necessary (known) additives to create processing conditions of PVC in the melt at temperatures up to 200-240 ° C for the release of chlorine from the melt under control at the indicated temperatures. The process of controlling the release of chlorine from the melt is carried out, for example, by a metered air stream from a fan (not shown).

The method is implemented as follows.

Pre-compacted bulky waste of various shapes goes to hopper 1, from where it goes to the waste sorting zone of PVC 2. Then the material is fed into the crushing zone 3, and then to the mixing zone in the extruder 4. There, the material is treated with stabilizing additives, such as barium stearate, carboxylate lead or calcium, which create conditions for processing PVC in the melt at temperatures up to 200-240 ° C for the release of chlorine from the melt under control. The process of controlling the release of chlorine from the melt is carried out, for example, by a metered air stream from a fan (not shown). The separated chlorine is collected in a container. The formation zone of the finished product 5 is used for the manufacture of structures with specified sizes and shapes.

In this method, chlorine is released when heated to 200-240 ° C, which allows the processing of PVC waste at higher temperatures and increases productivity and reliability.

The proposed method is highly efficient and reliable in comparison with analogues due to the use of stabilizer additives to create high-temperature processing of PVC.

Claims (1)

A method of processing PVC waste (polyvinyl chloride), including receiving PVC waste using a receiving hopper, sorting PVC waste, crushing, mixing in an extruder and forming an article, characterized in that stabilizing additives, for example, barium stearate, lead carboxylate, are fed into the extruder or calcium, to create conditions for processing PVC in the melt at temperatures up to 200-240 ° C for the release of chlorine from the melt under control at the indicated temperatures.

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