SU1475806A1 - Apparatus for removing moisture from polymeric materials - Google Patents

Abstract

The invention relates to chemical engineering, namely to devices for mechanometric removal of moisture from highly viscous polymeric materials. The purpose of the invention is to increase the efficiency of the process of removing moisture from a polymeric material. For this, the device is equipped with a compensation mechanism, made in the form of a power cylinder, the piston of which is rigidly connected to the power supply case, the damper, the cavity of which is connected to the piston cavity of the power cylinder, the sensor and air pressure regulator in the damper. The input of the pressure regulator is connected with the actuators of varying the frequency of rotation of the worm shaft and the screw. The outlet of the feeder is installed with the possibility of axial movement in the feed hopper. The housing of the screw-driver is made up of a mechanical dewatering section with a filtering surface and a heat-jacket section with a steam jacket. 1 hp ff, 1 ill.

Description

one

The invention relates to chemical engineering, in particular, to worm machines, in which the process of mechano-thermal removal of moisture from highly viscous polymeric materials is carried out, for example, from synthetic rubbers.

The aim of the invention is to increase the efficiency of the process of removing moisture from a polymeric material.

The drawing shows the proposed device.

The device comprises a worm machine 1, the casing of which is made of mechanical dewatering section 2 with a filtering surface 3 and heat-drying section 4 with a steam jacket 5. The worm machine 1 has a feed funnel 6, a worm shaft 7 mounted in it and

an unloading device 8. A worm shaft 7 is connected with an electric drive 9 and an executive body 10 for changing the frequency of rotation of a worm shaft 7.

The device is equipped with a feeder for feeding polymeric materials to a worm machine 1 in the form of a housing 11 with an inlet 12 and an outlet 13 and an electric screw 15 installed in it. The outlet 13 is mounted for axial movement in the feed funnel 6.

The actuator 15 is connected with the actuator 16 to change the frequency of rotation of the screw 14.

The device is equipped with a compensation mechanism, made in the form of a power cylinder 17, the body of which is mounted on

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the feed funnel 6, and the piston 18 is rigidly connected to the housing 11. The piston cavity of the power cylinder 17 is connected through the adjustable valve 19 to the cavity of the damper 20. The base cavity of the damper 20 through 5 the sensor 21 is connected to the air pressure regulator 22 in the gas cavity, the output of which is connected to the master inputs of the regulators 23 and 24 of the executive bodies 16 and

this moisture instantly evaporates, and the dry material enters the molding and packaging. With an increase in the supply of material to the device, the amount of material entering into the hopper 6 of the screw machine 1 increases, and the drag of the no-material advancement increases. The feeder moves axially in the opposite direction. Move10 Sensors 25 and 26 are connected to regulators 1P of the feeder and rigidly connected with it.

24 and 23.

The device works as follows.

Wet porous material in the form of crumbs with particle sizes of 3–15 mm enters the inlet 12 of the feeder and 15 is transported by the worm 14 to the hopper 6 of the worm machine 1. As the material is accumulated in the hopper of the worm

the piston 18 causes the fluid to flow from the damper 20, which leads to a decrease in air pressure in the gas cavity of the damper 20. The regulator 22, striving to provide a predetermined value, increases the setting of the regulators 24,23, which leads to an increase in the frequency of rotation of the worm shaft 7 and screw 14, a reduction in drag resistance to material advancement and, consequently, to the return of air pressure in

shaft 7 increases the drag JQ of the gas cavity of the damper 20 to the specified value. When the material supply is reduced, the device operates in the same way, only the rotational speed of the worm shaft 7 and the screw 14 is reduced. Then the cycle repeats.

Claims (2)

1. A device for removing moisture from polymeric materials, comprising a worm machine with a hopper and a casing with a worm shaft mounted in it with an executive body changing its rotation frequency and an unloading device and a feeder for feeding polymeric materials to the worm machine in the form of a casing the inlet and outlet nozzles and a worm with an electric actuator and an actuator installed in it change its rotation frequency, characterized in that, in order to increase the efficiency of the removal process in Steps of polymer 40 of the material, it is equipped with a compensation mechanism made in the form of a ram cylinder, a sensor and an air pressure regulator in the damper, the output of which is connected to the actuators of changing the hour. As the material progresses due to compaction and intensive mixing, mechanical extraction of moisture occurs, which is removed from the section 2 through the filter surface 3, while the pressure at the end of the zone reaches 1.0-2.0 MPa, and the temperature is 90-110 ° C. In section 4, due to the internal friction in the material and the heat transferred through the steam jacket 5, the material is heated to a temperature of 170-220 ° C at a pressure of 8.0-10.0 MPa and is throttled through the discharge device 8. When this moisture instantly evaporates, and the dry material enters the molding and packaging. With an increase in the supply of material to the device, the amount of material entering into the hopper 6 of the screw machine 1 increases, and the drag of the no-material advancement increases. The feeder moves axially in the opposite direction. Moving the feeder and tightly connected to it rigid feeder and rigidly connected with it the piston 18 causes the fluid to flow from the damper 20, which leads to a decrease in air pressure in the gas cavity of the damper 20. The regulator 22, striving to provide a predetermined value, increases the setting of the regulators 24,23, which leads to an increase in the frequency of rotation of the worm shaft 7 and screw 14, a reduction in drag resistance to material advancement and, consequently, to the return of air pressure in gas cavity damper 20 to a predetermined value. When reducing the supply of materials0 five 1. A device for removing moisture from polymeric materials, comprising a worm machine with a hopper and a casing with a worm shaft mounted in it with an executive body changing its rotation frequency and an unloading device and a feeder for feeding polymeric materials to the worm machine in the form of a casing the inlet and outlet nozzles and a worm with an electric actuator and an actuator installed in it change its rotation frequency, characterized in that, in order to increase the efficiency of the removal process in Steps of polymer 0 material, it is equipped with a compensation mechanism, made in the form of a ram, an air pressure sensor and regulator in the damper, the output of which is connected to the actuators of changing the frequency of rotation of the worm shaft and worm, and the output nipple of the feeder is mounted with the possibility of axial movement in the feed hopper. 2. A device according to claim 1, characterized in that the housing of the screw machine is made up of a mechanical dewatering section with a filtering surface and a heat-jacket section with a steam jacket. Wet material 12 8K "N g --shI 14 2 / J 5o3u Zo a mechanical oszOzhi.do.ni. Steam gas mixture Par 7trlts Ё-b R Condensate | Zosh thermal ozdozhavani