RU2094717C1 - Drier for thermoplastic materials - Google Patents

Abstract

FIELD: chemical industry and other industries pertaining to processing plastics. SUBSTANCE: drier comprises taper hopper 1 with cover 9 having pressure pipe 4 provided with ejector 6 located axially and connected with air supply system which includes heater and air cleaner 14; drier is also provided with control panel and material discharge unit 8. Casing 3 of hopper 1 has double walls with radiator 2 located between them. Radiator 2 is connected with air supply system which is additionally provided with air duct 10 located in cover 9. Air duct 10 is provided with infrared radiators 11 brought in communication with pressure pipe 4 through ejector 6. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to the drying of thermoplastic materials and can be used in chemical and other industries in the processing of plastics.

 A known installation for processing materials in infrared rays, comprising a housing with holes for air circulation, a device for attaching infrared emitters, a pan for irradiated materials [1] However, the known design does not provide uniform drying.

 A known design of an ejector-type dryer, selected as a prototype, provides drying of thermoplastics in a fluidized bed [2]. This design consists of a chamber with a conical base placed along the axis of the riser pipe, in the lower part of which an ejector is installed. The top of the camera has a cover with a reflector fixed in it. The camera in the lower part of the base has openings for the supply of coolant, located on a ring whose diameter is larger than the diameter of the lifting pipe.

 The disadvantages of this device are: the lack of reuse of heated air, overheating of the walls of the chamber, which can lead to sticking of thermoplastics in the lower part of the chamber, slow heating to the entire depth of the granules, which ultimately reduces the quality of drying of thermoplastics.

 The task of the invention is the elimination of overheating of the material and improving the quality of drying.

 The objective is achieved in that the known construction comprising a conical hopper with a lid, along the axis of which a pressure pipe with an ejector is located, connected to an air supply system including a heater and an air purifier, a control panel and a material unloading unit, is additionally equipped with a radiator located between the double walls the casing and associated with the air supply system, which further comprises a duct located in the lid with infrared emitters, communicating via an ejector with a pressure pipe .

 Similar features that distinguish the proposed design from the prototype, are not found in the known technical solutions. Therefore, the proposed installation of drying thermoplastics has the novelty of the essential features that give a new positive effect.

 The invention is illustrated in the drawing, which shows the dryer in section.

 The dryer contains (Fig. 1) a hopper 1 on which a tubular radiator 2 is tightly mounted with an insulating outer casing 3 and a pressure pipe 4 with a reflector 5 located along the axis of the hopper 1, the ejector 6 and the annular collector 7, as well as a unit, are installed in its lower part unloading material 8. On top of the hopper 1 has a lid 9 and quartz air ducts 10 with infrared emitters installed inside them 11. A compressed air pipe 13 from quartz air ducts 10 is connected to the ejector 6 through a three-code valve 12. The dryer is equipped with a pneumatic and electric apparatus uroy, air cleaning device 14, and a heater remote control (not shown).

 A dryer for thermoplastic materials works as follows.

 Material is loaded into the hopper 1 to a height less than the height of the pressure pipe 4. The hopper 1 is closed by a cover 9. Through the air preparation unit 14, the dried air enters the radiator 2 with a heat-insulating casing 3, which prevents heat leakage to the outside. The air heated in the radiator 2 passes through the quartz air ducts 10, cools the IR emitters 11, and the finally heated air flows through the pipe 13 to the ejector 6 and the annular collector 7. Hot air (coolant) blows through the openings of the collector 7 all the material in the hopper 1, and leaving the ejector 6 captures air from the bottom of the hopper 1 and carries the granules of material along the pressure pipe 4 upwards, where they, hitting the reflector 5, are discarded on the wall of the hopper 1, while maintaining infrared radiation. At the end of the drying process, the material unloading unit 8 is automatically opened and the material is unloaded.

 Using this design will eliminate the overheating of the material and improve the quality of drying.

Claims (1)

 A dryer for thermoplastic materials containing a conical hopper with a lid, along the axis of which there is a pressure pipe with an ejector connected to an air supply system including a heater and an air purifier, a control panel and a material unloading unit, characterized in that the hopper casing has double walls, between which is the radiator associated with the air supply system, which further comprises an air duct with infrared emitters located in the lid, communicating via an ejector with a pressure pipe .