CN202336985U - Co-rotating twin-screw reactive type extruder - Google Patents

Abstract

The utility model discloses a co-rotating twin-screw reactive type extruder. The co-rotating twin-screw reactive type extruder comprises a main electric motor, a safety coupling, a speed reducer, an extruding system, a twin-screw exhaust system, a vacuum exhaust system and a blow-off valve device, wherein the main electric motor is connected with the speed reducer through the safety coupling, the speed reducer is connected with the extruding system through a machine barrel connection device, the twin-screw exhaust system and the vacuum exhaust system are respectively connected with the extruding system, the blow-off valve device is arranged at the tail end of the extruding system, a length-diameter ratio of a screw in the extruding system is 56, and a material polycondensation area and a devolatilization exhaust area are formed by a machine barrel of the extruding system and the screw. The co-rotating twin-screw reactive type extruder disclosed by the utility model has the advantages that a production-manufacturing process of para-aramid particles can be finished, and the para-aramid particles extruded by a co-rotating twin-screw reactive type dedicated extruder with the diameter of the screw being 135mm and the length-diameter ratio of the screw being 56 can achieve a product requirement regulated by the national standard.

Description

Parallel dual-screw response type extruder

Technical field

The utility model relates to a kind of parallel dual-screw response type extruder of producing p-aramid fiber that is mainly used in.

Background technology

The nucleus equipment that is used to produce p-aramid fiber is mainly double screw extruder; In the world, the famous production firm of double screw extruder mainly contains the doubly grand group of section (Coperion Werner & Pfeiderer is called for short Coperion W&P) and two families of JSW (JSW) of Germany.At present domesticly also do not have a tame unit to have design, make the practical experience of the complete large and medium-sized double screw extruder group that p-aramid fiber uses, design of key components calculating principle and theoretical foundation are not known where to begin especially.Because China's p-aramid fiber is dependence on import always for a long time; Foreign-made manufacturer just might carry out technical monopoly, jointly forces up commodity prices, and in the supply of standby redundancy, controls; The phenomenon of seeking exorbitant profit; Therefore the research and development and the manufacturing of domestic demands p-aramid fiber production line project is to break international the blockade, for country saves a large amount of foreign exchange funds.

Mostly the double screw extruder group that China develops is medium and small type; The all-purpose double-screw that can produce at present below the diameter 150mm is extruded unit 3000 covers; Diameter surpasses the double screw extruder of 150mm and seldom can make; And draw ratio is generally below 30; It is normal steel that twin-screw is made material, is that 56 the special-purpose unit of big specification parallel dual-screw extruding machine does not have producer to manufacture and design at home as yet and produce draw ratio that p-aramid fiber uses, and processing experience and the process technology of making the used Hastelloy material of screw rod and machine barrel all are blank at home.

The utility model content

The purpose of the utility model provides a kind of parallel dual-screw response type extruder of accomplishing the manufacturing process of p-aramid fiber particle.

The utility model for realizing the technical scheme that above-mentioned purpose adopted is: a kind of parallel dual-screw response type extruder; Comprise main motor (1), safety coupling (2), decelerator (3), extrusion system (6), twin-screw gas extraction system (7), vacuum pumping system (8) and blow-off valve device (9); Said main motor (1) is connected with decelerator (3) through safety coupling (2); Decelerator (3) is connected with extrusion system (6) through machine barrel coupling arrangement (5); Twin-screw gas extraction system (7) is connected with extrusion system (6) respectively with vacuum pumping system (8); Blow-off valve device (9) is installed in the end of extrusion system (6), and the screw slenderness ratio in the extrusion system (6) is 56, the machine barrel of extrusion system (6) and screw rod component material polycondensation reaction district and devolatilization exhaust area.

Said decelerator (3) is provided with decelerator lubricating arrangement (4).

Machine barrel temperature-controlling system (10) is installed on the said extrusion system (6).

Said machine barrel is 18 joints, and the interval that the 1st to the 6th joint machine barrel and screw rod are formed is material polycondensation reaction district, and all the other intervals of respectively saving machine barrel and screw rod composition are the devolatilization exhaust area.

Said twin-screw gas extraction system (7) comprises exhaust direct connection decelerator (11), exhaust twin-screw (12) and gas exhaust piping (13); Said exhaust direct connection decelerator (11) is installed on the frame of twin-screw gas extraction system (7); Said exhaust twin-screw (12) is arranged in the machine barrel, and said gas exhaust piping (13) links to each other with machine barrel.

Said exhaust twin-screw (12) is two homodromal twin-screws.

Said blow-off valve device (9) comprises oscillating cylinder (14) and two-way air bleeding valve (15).

Said vacuum pumping system (8) comprises vavuum pump (16), acid-base neutralization pond (17), powder collection jar (18) and exhaust pipe (19), and said vavuum pump (16) is connected with exhaust pipe (19) respectively with acid-base neutralization pond (17).

A kind of parallel dual-screw response type of the utility model extruder; Can accomplish the manufacturing process of p-aramid fiber particle; Screw diameter is 135mm, and draw ratio is the be up to state standards goods requirement of regulation of aramid fiber particle that the special-purpose extruder of 56 parallel dual-screw response type is extruded.

Description of drawings

Fig. 1 is the structural representation of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 2 is the machine barrel combining structure sketch map of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 3 is the screw combinations structural representation of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 4 is the twin-screw exhaust system structure sketch map of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 5 is the blow-off valve apparatus structure sketch map of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 6 is the blow-off valve apparatus structure sketch map of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 7 is the machine barrel connecting device structure sketch map of a kind of parallel dual-screw response type of the utility model extruder.

Fig. 8 is the pumped vacuum systems structural representation of a kind of parallel dual-screw response type of the utility model extruder.

Among the figure: 1, main motor; 2, safety coupling; 3, decelerator; 4, decelerator lubricating arrangement; 5, machine barrel coupling arrangement; 6, extrusion system; 7, twin-screw gas extraction system; 8, vacuum pumping system; 9, blow-off valve device; 10, machine barrel temperature-controlling system; 11, exhaust direct connection decelerator; 12, exhaust twin-screw; 13, gas exhaust piping; 14, oscillating cylinder; 15, two-way air bleeding valve; 16, vavuum pump; 17, acid-base neutralization pond; 18, powder collection jar; 19, exhaust pipe; 20, spline housing shaft coupling.

The specific embodiment

Like Fig. 1-shown in Figure 8, parallel dual-screw response type extruder comprises main motor 1, safety coupling 2, decelerator 3, extrusion system 6, twin-screw gas extraction system 7, vacuum pumping system 8 and blow-off valve device 9; Main motor 1 is connected with decelerator 3 through safety coupling 2; Decelerator 3 is connected with extrusion system 6 through machine barrel coupling arrangement 5, and twin-screw gas extraction system 7 is connected with extrusion system 6 respectively with vacuum pumping system 8, and blow-off valve device 9 is installed in the end of extrusion system 6; Screw slenderness ratio in the extrusion system 6 is 56; The machine barrel of extrusion system 6 and screw rod component material polycondensation reaction district and devolatilization exhaust area, decelerator 3 is provided with decelerator lubricating arrangement 4, and machine barrel temperature-controlling system 10 is installed on the extrusion system 6; The screw diameter of this extruder is 135mm, and draw ratio is 56; Totally 18 save machine barrels, wherein preceding 6 joint machine barrels are conversion zone, and other machine barrel is an exhaust section; The twin-screw gas extraction system makes the volatile matter that forms behind the material reaction in time discharge the machine barrel outside; The building blocks assembled screw rod of particular configuration reaches the reaction requirement of material; The blow-off valve device of two-way discharge satisfies the demand of outlet material; The time of staying of material in machine barrel reaches designing requirement greater than 5min; The machine barrel coupling arrangement connects reduction gearbox output shaft and screw rod input accurately; The escaping gas that the response type pumped vacuum systems makes material in cylindrical shell, react back formation can well be reacted, absorbed and utilized.

During work; Raw material joins double screw extruder through measuring pump, and under the driving of motor 1, safety coupling 2, decelerator 3, machine barrel coupling arrangement 5, the charge door from extrusion system 6 enters into machine barrel; Plastify mixing concurrent biochemical reaction in the machine barrel through acting on of two homodromal combined threaded rods; The volatile matter that reaction produces is got rid of through gas extraction system 7 and pumped vacuum systems 8, and the material that mixes is extruded from blow-off valve 9, accomplishes entire reaction course.For making material in machine barrel, carry out sufficient chemical reaction, the screw slenderness ratio in the extrusion system 6 is designed to 56, and screw rod is divided into the different functions district; Be designed to 18 joint machine barrels; Be divided into the different functions district successively; The interval of forming at the 1st to the 6th joint machine barrel and the screw rod of beginning is that material carries out the polycondensation reaction district; Screw combinations through particular configuration and special machine barrel temperature control system are controlled at about-10 ℃ the reaction temperature of material to reach the reaction requirement, and other machine barrel is the devolatilization exhaust area; For hydrogen chloride (HCl) gas that makes the generation in the course of reaction is in time discharged; Design one cover twin-screw gas extraction system reaches this requirement; Exhaust direct connection decelerator 11 provides power that two homodromal exhaust twin-screws 12 are rotated in machine barrel and discharges the gases such as volatile matter in the reactant outside the machine barrel; In order to prevent that hydrogen chloride gas from leaking and to the human injury; Ad hoc meter one cover vacuum pumping system produces the available aqueous solution of generation after the neutralization reaction to the hydrogen chloride gas of volatilization and alkali lye; Utilize vavuum pump 16 to be extracted into reacted gas and small solid particle respectively in acid-base neutralization pond 17 and the powder collection jar 18 through exhaust pipe 19, accomplish whole vacuum exhaust process; The traditional exhaust system just with vavuum pump directly from machine barrel gas bleeding be emitted in the atmosphere, the design has well accomplished the volatile matter collection process in the aramid fiber course of reaction; Whether qualified for ease of the product after the detection reaction; Ad hoc meter one cover blow-off valve device, blow-off valve 15 has two outlets, through oscillating cylinder 14 each outlet is opened or closed; Be convenient to inspection and discharge qualified and underproof material; Traditional blow-off valve uses manual flashboard to open and close, and can't carry out the interlocked control of whole flow process, and the design can reach interlocked control; For making reduction gearbox output shaft and screw rod power shaft reach the transmission of accurate connection moment of torsion; In the machine barrel coupling arrangement, adopt spline housing shaft coupling 20 to connect; Two groups of involute splines connect the precision height that cooperates; Improved the requirements such as linearity, axiality of screw rod, the utility model extruder is accomplished the course of reaction of material, the be up to state standards goods requirement of regulation of the aramid fiber particle of extruding.

Claims (8)

1. parallel dual-screw response type extruder; It is characterized in that: comprise main motor (1), safety coupling (2), decelerator (3), extrusion system (6), twin-screw gas extraction system (7), vacuum pumping system (8) and blow-off valve device (9); Said main motor (1) is connected with decelerator (3) through safety coupling (2); Decelerator (3) is connected with extrusion system (6) through machine barrel coupling arrangement (5); Twin-screw gas extraction system (7) is connected with extrusion system (6) respectively with vacuum pumping system (8); Blow-off valve device (9) is installed in the end of extrusion system (6), and the screw slenderness ratio in the extrusion system (6) is 56, the machine barrel of extrusion system (6) and screw rod component material polycondensation reaction district and devolatilization exhaust area.

2. a kind of parallel dual-screw response type extruder according to claim 1, it is characterized in that: said decelerator (3) is provided with decelerator lubricating arrangement (4).

3. a kind of parallel dual-screw response type extruder according to claim 1 is characterized in that: machine barrel temperature-controlling system (10) is installed on the said extrusion system (6).

4. a kind of parallel dual-screw response type extruder according to claim 1; It is characterized in that: said machine barrel is 18 joints; The interval that the 1st to the 6th joint machine barrel and screw rod are formed is material polycondensation reaction district, and all the other intervals of respectively saving machine barrel and screw rod composition are the devolatilization exhaust area.

5. a kind of parallel dual-screw response type extruder according to claim 1; It is characterized in that: said twin-screw gas extraction system (7) comprises exhaust direct connection decelerator (11), exhaust twin-screw (12) and gas exhaust piping (13); Said exhaust direct connection decelerator (11) is installed on the frame of twin-screw gas extraction system (7); Said exhaust twin-screw (12) is arranged in the machine barrel, and said gas exhaust piping (13) links to each other with machine barrel.

6. a kind of parallel dual-screw response type extruder according to claim 5 is characterized in that: said exhaust twin-screw (12) is two homodromal twin-screws.

7. a kind of parallel dual-screw response type extruder according to claim 1 is characterized in that: said blow-off valve device (9) comprises oscillating cylinder (14) and two-way air bleeding valve (15).

8. a kind of parallel dual-screw response type extruder according to claim 1; It is characterized in that: said vacuum pumping system (8) comprises vavuum pump (16), acid-base neutralization pond (17), powder collection jar (18) and exhaust pipe (19), and said vavuum pump (16) is connected with exhaust pipe (19) respectively with acid-base neutralization pond (17).

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