CN102199291A - Crude rubber production system - Google Patents

Abstract

The invention relates to a crude rubber production system which comprises a crude rubber dehydration device, a crude rubber polymerization reaction device, a crude rubber low-molecular removal device, a crude rubber receiver, a rubber discharge device, a hot oil circulation heating device, a vacuuming device, a nitrogen feeding device and a cooling water circulation cooling device, wherein the hot oil circulation heating device is communicated with the clamp sleeve of the dehydration kettle of the crude rubber dehydration device, the clamp sleeve of the reaction kettle of the crude rubber polymerization reaction device, the clamp sleeve of the devolatiligation kettle of the crude rubber low-molecular removal device and the tubulation preheater of the crude rubber low-molecular removal device; the vacuuming device is communicated with the dehydration kettle of the crude rubber dehydration device, the reaction kettle of the crude rubber polymerization reaction device, the devolatiligation kettle of the crude rubber low-molecular removal device and the tank bodies of the crude rubber receiver and the rubber discharge device; the nitrogen feeding device is communicated with a nitrogen transportation connector piece in the dehydration kettle and the tank bodies of the crude rubber receiver and the rubber discharge device; and the water inlet and water outlet of the cooling water circulation cooling device are communicated with the cooling disks of the crude rubber receiver and the rubber discharge device and a tabulation cooler.

Description

The rubber production system

Technical field

The present invention relates to a kind of production system of rubber.

Background technology

Silicon rubber has excellent electric insulating, oxytolerant resistance to deterioration, fast light resistance to deterioration and mildew resistance, chemical stability etc., and it is tasteless nontoxic, can be high temperature resistant and low temperature resistant, be widely used in polymer industrial circles such as rubber, plastics, coating, tackiness agent, seal gum, and in medical field, also play an important role.

In the preparation process of silicon rubber, with dimethyl ring body siloxanes is main raw material, and adding accounts for dimethyl ring body siloxanes thousandth to thousand/four methyl ethylene Fourth Ring body, dimethyl ring body siloxanes is under the effect of catalyzer, the open chain polyreaction takes place and generate polymer line style dimethyl polysiloxane, the open chain polyreaction also takes place and generates polymer line style methylvinyl-polysiloxane in methyl ethylene Fourth Ring body simultaneously, thereby obtains methyl vinyl silicon kautschuk.Rubber is called rubber unvulcanizate by prescription and Synergist S-421 95 through the mixing resulting glue of rubber mixing machine, and rubber unvulcanizate is a blank of making silastic product.The key step of the production technique of rubber glue is dehydration, polymerization, takes off low and plastic emitting.

When the open chain polyreaction takes place, what of water content in the quality of polymerization effect and the dimethyl ring body siloxanes are directly related, because can changing into hydroxyl, the existence of water carries out end-blocking, thereby make that the molecular weight of rubber is less, because having many end of the chains in the rubber is the polymer molecule of hydroxyl, can cause the difficulty of mixing that adds man-hour and reinforced filling mixing, also can make storage time of rubber unvulcanizate in road, back shorten, finally cause the mechanical property of silastic product to descend.Therefore, rubber raw material dimethyl ring body siloxanes is removed minor amount of water and have crucial meaning.

In polymerization process, common polymerizing reactor capacity is less, and normally 300 to 500 liters, yield poorly, efficient is low, and the molecular weight distribution of the rubber of being produced is inhomogeneous.Common polymerizing reactor adopts the steam coils heating, temperature can change along with the variation of vapor pressure, rely on fast and the frequent adjustment valve comes controlled temperature, the temperature fluctuation instability, the low then reaction of temperature not even reaction slowly, temperature height then catalyzer can lose activity, and is bigger to the polyreaction influence.In addition, the mode that common polymerizing reactor adopts open type to feed intake, in reactor, add catalyzer in polymerization stage by dog-house, molecular weight regulator, raw materials such as contents of ethylene control agent, because reactor is a vacuum, be easy to when adding auxiliary agent, suck a large amount of air and airborne moisture, very responsive to moisture when generating the polyreaction of raw-silastic continuously, because can changing into hydroxyl, the existence of water carries out end-blocking, thereby make that the molecular weight of rubber is less, and in the rubber if to have many end of the chains be the polymer molecule of hydroxyl, can cause the difficulty of mixing that adds man-hour and reinforced filling mixing, the storage time of the rubber unvulcanizate in road shortens after also can making, finally causes the mechanical property of silastic product to descend.

Low-molecular-weight line style methylvinyl-polysiloxane contained in the rubber can make rubber not reach needed elasticity, so remove the low-molecular-weight line style methylvinyl-polysiloxane in the rubber, is one of critical process of preparation silastic product.Common removes the low molecular device of rubber because vacuum and malleation are changed, and collodion silk adheres on the still wall easily, accumulates over a long period, and forms dead glue under long term high temperature, and dead glue can influence heat transfer, and influence removes low molecule effect.Dead glue is in case form, and system must unpick and wash immediately, needs the time (needing for 1 week usually) and both unpick and wash, also can contaminated material, waste many, cost is high.Common in addition rubber removes low molecular device and adopts the steam coils heating, and temperature can change along with the variation of vapor pressure, rely on fast and the frequent adjustment valve comes controlled temperature, the temperature fluctuation instability is bigger to removing low molecule influential effect.

Rubber is after process removes low molecular step, and temperature is generally at 160 ~ 170 ℃, as not cooling, can not directly pack, can only be discharged into earlier in the metal vessel, carry out packing with plastics bag and carton again after waiting cooling, cost height, efficient are low, easily pollute, and scale production is cumbersome.

Summary of the invention

The purpose of this invention is to provide a kind of constant product quality, material loss is few, the rubber production system that production efficiency is high.

The technical scheme that realizes the object of the invention is that a kind of rubber production system comprises that rubber dewatering unit, rubber polymerizing reactor, rubber remove low molecular device, rubber receiver and go out adhesive dispenser, hot oiling heating unit, vacuum extractor, nitrogen feedway and cooling water circulation refrigerating unit;

The rubber dewatering unit comprises dehydration still, dehydration still stirring mechanism and nitrogen circle pipe; The dehydration still comprises the dehydration still kettle and first bleeder valve; Dehydration still stirring mechanism comprises dehydration still stir shaft and the dehydration still agitating vane that is fixedly connected on the dehydration still stir shaft; Dehydration still stirring mechanism is arranged on the dehydration still kettle, and dehydration still stir shaft is arranged in dehydration still kettle with dehydration still agitating vane; Nitrogen circle pipe is arranged in the dehydration still kettle, and is positioned at the below of dehydration still stir shaft; Have one group of production well that opening makes progress on the body of nitrogen circle pipe; Nitrogen circle Guan Youqi nitrogen inlet end is airtight to be connected on the connecting portion that is positioned at dehydration still kettle inside of dehydration still nitrogen interfacing conveyor spare of dehydration still; First bleeder valve is the airtight discharge port that is fixedly connected on the bottom of dehydration still kettle from the below;

The rubber polymerizing reactor comprises reactor and reactor stirring mechanism; Reactor comprises the reactor kettle and second bleeder valve; The reactor stirring mechanism comprises reactor stir shaft and the reactor agitating vane that is fixedly connected on the reactor stir shaft; The reactor stirring mechanism is arranged on the reactor kettle, and reactor stir shaft and reactor agitating vane are arranged in the reactor kettle; First bleeder valve also is connected from the kettle of top with the reactor of rubber polymerizing reactor by corresponding pipeline; The discharge port of second bleeder valve bottom of the airtight kettle that is fixedly connected on reactor from the below;

Rubber removes low molecular device and comprises and take off low still, tubulation preheater and card, takes off low still and comprises and take off low still kettle and the 3rd bleeder valve; Taking off low still kettle comprises and takes off low still master kettle and the airtight overhead guard that takes off on place, the low still master kettle center of top hole plate body that is fixedly connected on; Tubulation preheater and card are arranged in the overhead guard according to order from top to bottom; Second bleeder valve is the airtight open top position that is fixedly connected on the overhead guard that takes off low still from the top also; The 3rd bleeder valve is the airtight aperture position that is fixedly connected on the bottom of taking off low still master kettle from the below;

Rubber receiver and go out adhesive dispenser and comprise tank body, spiral coil cooling tube, tubulation water cooler and the 4th bleeder valve; Tank body comprises can body; Spiral coil cooling tube is arranged in the can body, and the cooling water intakeoutfall of spiral coil cooling tube is airtight respectively is connected on the airtight corresponding interface part that is fixed on the can body; The tubulation water cooler by the last end interface of its shell from the plate body of the airtight lower end medium pore that is fixed on can body in below; The 3rd bleeder valve is also airtight from the top to be fixedly connected on the rubber receiver and to go out on the plate body in center of top hole of can body of adhesive dispenser; The 4th bleeder valve is the airtight lower end interface position that is fixedly connected on the rubber receiver and the shell of the tubulation water cooler that goes out adhesive dispenser from the below;

The oil inlet and outlet of hot oiling heating unit removes the chuck separately that takes off low still of low molecular device with dehydration still, the reactor of rubber polymerizing reactor, the rubber of rubber dewatering unit respectively by corresponding pipeline and tubulation preheater that rubber removes low molecular device is connected;

Vacuum extractor removes the tank body that hangs down taking off of molecular device low still and rubber receiver and go out adhesive dispenser with dehydration still, the reactor of rubber polymerizing reactor, the rubber of rubber dewatering unit respectively by corresponding pipeline and is connected;

The nitrogen feedway is connected with dehydration still nitrogen interfacing conveyor spare by corresponding pipeline, also is connected with rubber receiver and the tank body that goes out adhesive dispenser by corresponding pipeline;

The intake-outlet of cooling water circulation refrigerating unit is connected with rubber receiver and the spiral coil cooling tube and the tubulation water cooler that go out adhesive dispenser respectively by corresponding pipeline.

The dehydration still of above-mentioned rubber dewatering unit comprises that also the dehydration still vacuumizes mouthpiece, dehydration still dnockout mouthpiece and dehydration still chuck plate; Dehydration still chuck is made of jointly dehydration still chuck plate and dehydration still kettle, the dehydration still chuck of still of also promptly dewatering is enclosed in by dehydration still chuck plate on the sidepiece of outer wall of dehydration still kettle, and be fixed on the outer wall of dehydration still kettle by the plate end of the inside bending of its upper and lower ends, thereby between dehydration still kettle and dehydration still chuck plate an air casing of formation and constituting; The bottom, side of dehydration still chuck is provided with dehydration still hot oil inlet pipe, and the top, side of dehydration still chuck is provided with dehydration still hot oil outlet pipe; The dehydration still vacuumizes mouthpiece by its dehydration still and is connected with vacuum extractor by corresponding pipeline; Dehydration still dnockout mouthpiece is the parts of input liquid material; The dehydration still vacuumizes the top that mouthpiece and dehydration still dnockout mouthpiece all are arranged on dehydration still kettle; Dehydration still nitrogen interfacing conveyor spare is installed in the bottom of the sidepiece of dehydration still kettle;

Dehydration still stirring mechanism comprises that also reducing motor is fixedly connected on the dehydration still kettle of dehydration still by the base of reducing motor, and is positioned at the center of top position of dehydration still kettle; The upper end of dehydration still stir shaft links to each other with the lower end of stretching into the power output shaft in the dehydration still kettle of reducing motor by shaft coupling;

One end of nitrogen circle pipe opens wide, and the other end is airtight; An end that opens wide of nitrogen circle pipe is the nitrogen inlet end.

The nitrogen circle pipe of above-mentioned rubber dewatering unit is with the large semi-circular pipe that tangentially stretches out pipeline section, and having diameter that an opening makes progress every 10 to 20 degree on the body of the pipeline section of the large semi-circular of nitrogen circle pipe is 5 to 15 millimeters circular production well.

Above-mentioned rubber polymerizing reactor also comprises the protector that feeds intake;

Reactor comprises that also reactor vacuumizes mouthpiece, reactor dnockout mouthpiece and reacting kettle jacketing plate; Reacting kettle jacketing is made of jointly reacting kettle jacketing plate and reactor kettle, also be that reacting kettle jacketing is enclosed on the lateral outer of reactor kettle by the reacting kettle jacketing plate, and be fixedly connected on the outer wall of reactor kettle, thereby between reactor kettle and reacting kettle jacketing plate, form an air casing and constitute by the plate end of the inside bending of its upper and lower ends; The bottom, side of reacting kettle jacketing is provided with reactor hot oil inlet pipe, and the top, side of reacting kettle jacketing is provided with reactor hot oil outlet pipe; Reactor vacuumizes mouthpiece by its reactor and is connected with vacuum extractor by corresponding pipeline; Reactor dnockout mouthpiece is the parts of input liquid material; Reactor vacuumizes the top that mouthpiece and reactor dnockout mouthpiece all are arranged on the reactor kettle;

The reactor stirring mechanism also comprises variable-frequency motor, step-down gear, fixed support and Limit Bearing; The motor shaft of variable-frequency motor also is the power input shaft of step-down gear, and step-down gear is fixedly connected on the reactor kettle of reactor by its base, and is positioned at the center of top position of reactor kettle; Fixed support is fixed in the reactor kettle of reactor, and is positioned at the central position of the bottom of reactor kettle; Limit Bearing is installed on the fixed support, and is positioned at support bracket fastened top; The upper end of reactor stir shaft links to each other with the lower end that stretches into the intravital power output shaft of reactor still downwards of step-down gear by shaft coupling, and the lower end of reactor stir shaft is stretched in the inner ring of Limit Bearing, and with the inner ring wringing fit of Limit Bearing; The reactor agitating vane is fixed on the reactor stir shaft;

The protector that feeds intake comprises hopper, first valve, container, feeding intake vacuumizes mouthpiece, discharge nozzle and second valve; Hopper is linked to each other with the opening for feed of container by the discharge port that it is positioned at the lower end, and is positioned at the top at the top of container; First valve is arranged on the bottom of hopper; Feed intake and vacuumize the side that mouthpiece is arranged on the top of container; The discharge port that is positioned at the bottom of the upper end of discharge nozzle and container links to each other, and the lower end of discharge nozzle is fixed on the top of the reactor kettle of reactor, and with the intracavity inter-connection of reactor kettle; Second valve is arranged on the discharge nozzle; The protector that feeds intake is fed intake by it and vacuumizes mouthpiece and be connected with vacuum extractor by corresponding valve and pipeline.

Above-mentioned rubber removes the low still of taking off of low molecular device and comprises that also taking off low still vacuumizes mouthpiece and take off low still chuck plate; Taking off low still chuck constitutes jointly by taking off low still chuck plate and taking off low still master kettle, also promptly taking off low still chuck is enclosed on the lateral outer of the middle and upper part housing that takes off low still master kettle by taking off low still chuck plate, and be fixedly connected on the outer wall that takes off low still master kettle, thereby constitute taking off an air casing of formation between low still master kettle and the chuck plate by the plate end of the inside bending of its upper and lower ends; The bottom, side of taking off low still chuck is provided with takes off low still hot oil inlet pipe, and the top, side of taking off low still chuck is provided with takes off low still hot oil outlet pipe; The middle and upper part of taking off low still master kettle is a cylindrical shell, and the bottom of taking off low still master kettle is the inverted cone housing; The top of overhead guard is the segment housing, and the bottom of overhead guard is a cylindrical shell; The diameter of the middle and lower part of overhead guard is less than the diameter of the middle and upper part of taking off low still master kettle; Take off low still and vacuumize mouthpiece and have 2, airtight respectively being fixed on taken off on the low still master kettle, and is positioned at the corresponding opening part at the top of taking off low still master kettle; Taking off low still takes off low still by it and vacuumizes mouthpiece and be connected with vacuum extractor by corresponding pipeline;

The tubulation preheater is arranged in the cylindrical shell of the overhead guard that takes off low still; The tubulation preheater is provided with the preheater rubber passage of up/down perforation;

Card is arranged in the cylindrical shell of the overhead guard that takes off low still, and is positioned at the below of tubulation preheater; The tiny through hole of densely covered upward and downward on the card; The top of each through hole is reverse frustoconic, and the bottom is cylindrical.

The tubulation preheater that above-mentioned rubber removes low molecular device comprises preheater hot oil inlet pipe, preheater hot oil outlet pipe, preheater tubulation and 2 preheater tube sheets; 2 preheater tube sheets are called preheater upper tubesheet and preheater lower tubesheet by residing upper-lower position difference; The upper end of each single tube of tubulation is all airtight to be fixedly connected on the plate body at a corresponding pore place of preheater upper tubesheet, the lower end of each single tube of tubulation is all airtight to be fixedly connected on the plate body at a corresponding pore place of preheater lower tubesheet, and preheater upper tubesheet and preheater lower tubesheet be airtight to be fixedly connected on the inwall of cylindrical shell of overhead guard; The aperture position of preheater hot oil inlet pipe bottom of the airtight cylindrical shell that is fixed on overhead guard from the outside be positioned at the top of preheater lower tubesheet, and preheater hot oil inlet pipe communicates with the inner chamber of overhead guard; The aperture position on preheater hot oil outlet pipe top of the airtight cylindrical shell that is fixed on overhead guard from the outside be positioned at the below of preheater upper tubesheet, and preheater hot oil outlet pipe communicates with the inner chamber of overhead guard; The inner chamber of each single tube of preheater tubulation is preheater rubber passage;

Described rubber removes the low still of taking off of low molecular device and comprises that also taking off low still shows mirror; Take off low still and show that mirror is arranged on the middle part of taking off low still master kettle;

The aperture of bottom of through hole that described rubber removes the card of low molecular device is 0.8 to 1.5 millimeter.

Above-mentioned rubber receiver comprises also that with the tank body that goes out adhesive dispenser tank body nitrogen interfacing conveyor spare, tank body vacuumize mouthpiece, spiral coil cooling tube mouthpiece and tank body chuck plate; The basic configuration of can body is the cylinder hull shape; The tank body cooling water jecket is made of jointly tank body chuck plate and can body, also be that the tank body cooling water jecket is enclosed on the outside of can body by tank body chuck plate, and and be fixedly connected on the outer wall of can body, thereby between can body and tank body chuck plate, form an air casing and constitute by the plate end of the inside bending of its upper and lower ends; The bottom, side of tank body cooling water jecket is provided with tank body entrance of cooling water pipe, and the top, side of tank body cooling water jecket is provided with the tank body cooling water outlet pipe; Tank body is connected with the nitrogen feedway by corresponding pipeline by its tank body nitrogen interfacing conveyor spare; Tank body vacuumizes mouthpiece by its tank body and is connected with vacuum extractor by corresponding pipeline; Tank body nitrogen interfacing conveyor spare and tank body vacuumize on the plate body of corresponding tapping at all airtight top that is fixed on can body of mouthpiece; The spiral coil cooling tube mouthpiece has 2, be divided into lower interface spare and last mouthpiece, lower interface spare is from the plate body of the corresponding tapping of the airtight bottom, side that is fixed on can body, the outside, and last mouthpiece is from the plate body of the corresponding tapping on the airtight top, side that is fixed on can body, the outside;

Spiral coil cooling tube is arranged on the inside of can body, is fixed on the can body by support; The lower end mouth of pipe of spiral coil cooling tube is airtight to be fixed on the connecting portion that is positioned at can body of lower interface spare, and the upper end mouth of pipe of spiral coil cooling tube is airtight to be fixed on the connecting portion that is positioned at can body of mouthpiece;

The tubulation water cooler comprises 2 radiator tube plates, water cooler tubulation and shell; Water cooler tubulation and radiator tube plate all are arranged in shell; 2 radiator tube plates are divided into water cooler upper tubesheet and water cooler lower tubesheet; Water cooler upper tubesheet and water cooler lower tubesheet branch are fixed on up and down on the shell, and the upper end of each root vertical tube of water cooler tubulation all is fixed on the water cooler upper tubesheet, and the lower end of each root vertical tube of water cooler tubulation all is fixed on the water cooler lower tubesheet; The tubulation water cooler by its shell from the below airtight being fixedly connected on the can body, and be positioned at the bottom center opening part of can body.

Above-mentioned rubber receiver is the water inlet port of spiral coil cooling tube with the lower end mouth of pipe that goes out the spiral coil cooling tube of adhesive dispenser; The upper end mouth of pipe of spiral coil cooling tube is the water outlet port of spiral coil cooling tube;

Described rubber receiver also comprises water cooler entrance of cooling water pipe and water cooler cooling water outlet pipe with the tubulation water cooler that goes out adhesive dispenser; Water cooler entrance of cooling water pipe and water cooler cooling water outlet pipe are respectively from the plate body of the corresponding position with pores of the airtight shell that is fixed on the tubulation water cooler in the outside, water cooler entrance of cooling water pipe is positioned at the bottom of shell, and be positioned at the top of water cooler lower tubesheet, the water cooler cooling water outlet pipe is positioned at the top of shell, and is positioned at the below of water cooler upper tubesheet.

The present invention has positive effect:

(1) dehydration still, the reactor in the rubber production system of the present invention, take off low still and all adopt deep fat to heat by the chuck type of heating, come compared with the steam coils type of heating, temperature is uniform and stable, rate of heating is fast, is easy to control.Whole system is reasonable in design, constant product quality, and material loss is few, the production efficiency height.

(2) the rubber dewatering unit of rubber production system of the present invention is provided with stirring mechanism, makes that by stirring materials overturning flows in the still, thermally equivalent, and dehydrating effect is good, and material loss is less.Nitrogen ring pipe is established in the bottom of this rubber dewatering unit, the nitrogen that derives from liquid nitrogen by feeding makes material seethe, carry away the micro-moisture in the raw material secretly, also because the water content in the liquid nitrogen is extremely low, formed moisture free substantially nitrogen silicon rubber behind the liquid nitrogen vaporization is directly used in the dehydration of rubber unvulcanizate starting monomer, its better effects if.

(3) motor of the stirring mechanism of the rubber polymerizing reactor of rubber production system of the present invention adopts variable frequency control, can stir the soft solid materials about 2 tons, improve production capacity greatly, can improve molecular weight and vinyl situation pockety, safe and reliable, and save energy.The protector that feeds intake of rubber polymerizing reactor has effectively been avoided sucking airborne moisture when adding auxiliary agent by vacuumizing the method for removing air, has guaranteed the quality of rubber.

(4) rubber of rubber production system of the present invention removes low molecular device increases the stroke of the length of kettle with prolongation collodion silk whereabouts, can fully remove low molecule; The width that increases kettle avoids forming dead glue to increase the spacing of collodion silk and still wall.This device production stability is good, the efficient height, and maintenance cost is cheap.

(5) the rubber receiver of rubber production system of the present invention and go out in the tank body of adhesive dispenser to be provided with cooling water coil, the tank body outside is provided with cooling water jecket, the tank body below is provided with the tubulation water cooler, can cool off fast the high temperature rubber, make the temperature of rubber drop to 50 ℃, thereby conveniently directly pack with plastics bag and carton continuously, improved efficient and quality greatly.

Description of drawings

Fig. 1 is a kind of structural representation of rubber production system of the present invention.

Fig. 2 is a kind of structural representation of the rubber dewatering unit of the rubber production system among Fig. 1.

Fig. 3 is the structural representation of the nitrogen circle pipe of the rubber dewatering unit among Fig. 2.

Fig. 4 is a kind of structural representation of the rubber polymerizing reactor of the rubber production system among Fig. 1.

Fig. 5 is the structural representation of the protector that feeds intake of the rubber polymerizing reactor among Fig. 4.

Fig. 6 removes a kind of structural representation of low molecular device for the rubber of the rubber production system among Fig. 1.

Fig. 7 is the sectional view of the overhead guard that takes off low still from Fig. 6.

Fig. 8 is wherein the structural representation of tubulation preheater when observing from the top of Fig. 7.

Fig. 9 is the structural representation during wherein card when observing from the top of Fig. 7.

Figure 10 be Fig. 9 A-A to local amplification view.

Figure 11 is the rubber receiver and a kind of structural representation that goes out adhesive dispenser of the rubber production system among Fig. 1.

Figure 12 is the structural representation of tubulation water cooler when observing from the top of Figure 11;

Figure 13 be Figure 12 B-B to cross-sectional schematic.

The title of the technical characterictic that the mark of above-mentioned accompanying drawing is represented is as follows:

Rubber dewatering unit 1,

Dehydration still 11, dehydration still kettle 11-1, the dehydration still vacuumizes mouthpiece 11-2, dehydration still dnockout mouthpiece 11-3, the first bleeder valve 11-4, dehydration still nitrogen interfacing conveyor spare 11-5, dehydration still chuck plate 11-6, dehydration still chuck 11-7, dehydration still hot oil inlet pipe 11-7-1, dehydration still hot oil outlet pipe 11-7-2.

Dehydration still stirring mechanism 12, reducing motor 12-1, dehydration still stir shaft 12-2, dehydration still agitating vane 12-3,

Nitrogen circle pipe 13, production well 13-1, nitrogen inlet end 13-2,

Rubber polymerizing reactor 2,

Reactor 21, reactor kettle 21-1, reactor vacuumizes mouthpiece 21-2, reactor dnockout mouthpiece 21-3, the second bleeder valve 21-4, reacting kettle jacketing 21-5, reactor hot oil inlet pipe 21-5-1, reactor hot oil outlet pipe 21-5-2, reacting kettle jacketing plate 21-6

Reactor stirring mechanism 22, variable-frequency motor 22-1, step-down gear 22-2, reactor stir shaft 22-3, reactor agitating vane 22-4, fixed support 22-5, Limit Bearing 22-6,

The protector 23 that feeds intake, hopper 23-1, the first valve 23-2, container 23-3, the vacuum orifice spare 23-4 that feeds intake, discharge nozzle 23-5, the second valve 23-6,

Rubber removes low molecular device 3,

Take off low still 31, take off low still master kettle 31-1, overhead guard 31-2 takes off low still and vacuumizes mouthpiece 31-3, take off low still chuck plate 31-4, the 3rd bleeder valve 31-5 takes off low still and shows mirror 31-6, takes off low still chuck 31-7, take off low still hot oil inlet pipe 31-7-1, take off low still hot oil outlet pipe 31-7-2

Tubulation preheater 32, preheater rubber passage 32-1, preheater hot oil inlet pipe 32-2, preheater hot oil outlet pipe 32-3, preheater tubulation 32-4, preheater upper tubesheet 32-5, preheater lower tubesheet 32-6,

Card 33, through hole 33-1,

Rubber receiver and go out adhesive dispenser 4,

Tank body 41, tank body nitrogen interfacing conveyor spare 41-1, tank body vacuumizes mouthpiece 41-2, spiral coil cooling tube mouthpiece 41-3, lower interface spare 41-3-1, last mouthpiece 41-3-2, can body 41-4, tank body cooling water jecket 41-5, tank body entrance of cooling water pipe 41-5-1, tank body cooling water outlet pipe 41-5-2, tank body cooling water jecket plate 41-6

Spiral coil cooling tube 42, lower end mouth of pipe 42-1, upper end mouth of pipe 42-2,

Tubulation water cooler 43, radiator tube plate 43-5, water cooler upper tubesheet 43-5-1, water cooler lower tubesheet 43-5-2, water cooler tubulation 43-1, water cooler entrance of cooling water pipe 43-2, water cooler cooling water outlet pipe 43-3, shell 43-4,

The 4th bleeder valve 44,

Hot oiling heating unit 6, vacuum extractor 7, nitrogen feedway 8, cooling water circulation refrigerating unit 9.

Embodiment

(embodiment 1)

See Fig. 1 and Figure 14, the rubber production system of present embodiment comprises that rubber dewatering unit 1, rubber polymerizing reactor 2, rubber remove low molecular device 3, rubber receiver and go out adhesive dispenser 4, hot oiling heating unit 6, vacuum extractor 7, nitrogen feedway 8 and cooling water circulation refrigerating unit 9.

See Fig. 2, rubber dewatering unit 1 comprises dehydration still 11, dehydration still stirring mechanism 12 and nitrogen circle pipe 13.

Dehydration still 11 comprises that dehydration still kettle 11-1, dehydration still vacuumize mouthpiece 11-2, dehydration still dnockout mouthpiece 11-3, the first bleeder valve 11-4, nitrogen interfacing conveyor spare 11-5 and dehydration still chuck plate 11-6.Dehydration still chuck plate 11-6 and dehydration still kettle 11-1 constitute dehydration still chuck 11-7 jointly.The dehydration still vacuumizes the side that mouthpiece 11-2 is arranged on the top of dehydration still kettle 11-1.Dehydration still dnockout mouthpiece 11-3 be arranged on dehydration still kettle 11-1 the top vacuumize the symmetrical opposite side in position of mouthpiece 11-2 with the dehydration still.The first bleeder valve 11-4 is a ball valve, and the first bleeder valve 11-4 is fixedly connected on the discharge port of dehydration still kettle 11-1 bottom center position from the below.Nitrogen interfacing conveyor spare 11-5 is installed in the bottom of the sidepiece of dehydration still kettle 11-1.Dehydration still chuck 11-7 is enclosed in by dehydration still chuck plate 11-6 on the sidepiece of outer wall of dehydration still kettle 11-1, and be weldingly fixed on the outer wall of dehydration still kettle 11-1 by the plate end of the inside bending of its upper and lower ends, thereby between dehydration still kettle 11-1 and dehydration still chuck plate 11-6 an air casing of formation and constituting.The bottom, side of dehydration still chuck 11-7 is provided with dehydration still hot oil inlet pipe 11-7-1, and the top, side of dehydration still chuck 11-7 is provided with dehydration still hot oil outlet pipe 11-7-2.

Dehydration still stirring mechanism 12 comprises reducing motor 12-1, dehydration still stir shaft 12-2 and dehydration still agitating vane 12-3.Reducing motor 12-1 is fixedly connected on the dehydration still kettle 11-1 by its base, and is positioned at the center of top position of dehydration still kettle 11-1.Dehydration still stir shaft 12-2 and dehydration still agitating vane 12-3 all are arranged in dehydration still kettle 11-1 inner chamber, and the upper end of dehydration still stir shaft 12-2 links to each other with the lower end of stretching into the power output shaft among the dehydration still kettle 11-1 of reducing motor 12-1 by shaft coupling.Dehydration still agitating vane 12-3 is a steel blade, and is fixedly installed on the dehydration still stir shaft 12-2.

See Fig. 2 and Fig. 3, nitrogen circle pipe 13 is arranged in the dehydration still kettle 11-1 inner chamber, and is fixed on the bottom of dehydration still kettle 11-1 by support, is positioned at the below of dehydration still stir shaft 12-2.Nitrogen circle pipe 13 is steel integral pieces, and for the large semi-circular pipe that tangentially stretches out pipeline section, the termination of stretching out pipeline section of nitrogen circle pipe 13 is opened wide, and is nitrogen inlet end 13-2, and the other end of nitrogen circle pipe 13 is airtight.Having diameter that an opening makes progress every 15 degree on the body of the pipeline section of the large semi-circular of nitrogen circle pipe 13 is 10 millimeters circular production well 13-1.On the connecting portion that is positioned at dehydration still kettle 11-1 inside of nitrogen circle pipe 13 by the airtight nitrogen interfacing conveyor spare 11-5 that is connected dehydration still 11 of its nitrogen inlet end 13-2.Be fixedly connected with the nitrogen transfer line on the connecting portion that is positioned at dehydration still kettle 11-1 outside of nitrogen interfacing conveyor spare 11-5.During use, this nitrogen transfer line is directly carried the nitrogen after the liquid nitrogen vaporizer vaporization.

Dehydration still kettle 11-1 is provided with the people's pole (figure does not draw) that is arranged in sidepiece, uses for maintenance.

See Fig. 4, rubber polymerizing reactor 2 comprises reactor 21, reactor stirring mechanism 22 and the protector 23 that feeds intake.

Reactor 21 comprises that reactor kettle 21-1, reactor vacuumize mouthpiece 21-2, reactor dnockout mouthpiece 21-3, the second bleeder valve 21-4 and reacting kettle jacketing plate 21-6.Reacting kettle jacketing plate 21-6 and reactor kettle 21-1 constitute reacting kettle jacketing 21-5 jointly.Reactor kettle 21-1 is the integral piece that steel plate is made through the punching press welding, central part on the plate body at the top of reactor kettle 21-1 has the central circular hole that is used for by the power output shaft of stirring mechanism, also has near be positioned at the central open holes first circular hole as vacuum orifice on the plate body at the top of reactor kettle 21-1, as second circular hole of liquid material mouth and as the 3rd circular hole of auxiliary agent material mouth; Central part on the plate body of the bottom of reactor kettle 21-1 has the central circular hole as discharge port.The first bleeder valve 11-4 of rubber dewatering unit 1 is connected with the reactor dnockout mouthpiece 21-3 of rubber polymerizing reactor 2 by corresponding pipeline.

Reactor vacuumizes on the plate body at the first circular hole place at the airtight top that is weldingly fixed on reactor kettle 21-1 of mouthpiece 21-2.Reactor dnockout mouthpiece 21-3 is airtight to be weldingly fixed on the plate body at the second circular hole place at top of reactor kettle 21-1.The second bleeder valve 21-4 is a ball valve, and the second bleeder valve 21-4 is fixedly connected on from the below on the plate body of discharge port of bottom of reactor kettle 21-1, and whether discharging is controlled to the material among the reactor kettle 21-1.Reacting kettle jacketing 21-5 is enclosed on the lateral outer of reactor kettle 21-1 by reacting kettle jacketing plate 21-6, and be fixedly connected on the outer wall of reactor kettle 21-1, thereby between reactor kettle 21-1 and reacting kettle jacketing plate 21-6, form an air casing and constitute by the plate end of the inside bending of its upper and lower ends.The bottom, side of reacting kettle jacketing 21-5 is provided with reactor hot oil inlet pipe 21-5-1, and the top, side of reacting kettle jacketing 21-5 is provided with reactor hot oil outlet pipe 21-5-2.

Reactor stirring mechanism 22 comprises variable-frequency motor 22-1, step-down gear 22-2, reactor stir shaft 22-3, reactor agitating vane 22-4, fixed support 22-5 and Limit Bearing 22-6.The motor shaft of variable-frequency motor 22-1 also is the power input shaft of step-down gear 22-2, step-down gear 22-2 is fixedly connected on the reactor kettle 21-1 by its base is airtight, and be positioned at the center of top position of reactor kettle 21-1, the power output shaft of step-down gear 22-2 be passed down through reactor kettle 21-1 the top central circular hole and stretch among the reactor kettle 21-1.Fixed support 22-5 is fixed in the reactor kettle 21-1, and is positioned at the central position of the bottom of reactor kettle 21-1.Limit Bearing 22-6 is installed on the fixed support 22-5, and is positioned at the top of fixed support 22-5.Reactor stir shaft 22-3 and reactor agitating vane 22-4 all are arranged in reactor kettle 21-1 inner chamber, the upper end of reactor stir shaft 22-3 links to each other with the lower end that stretches into the power output shaft in the reactor kettle 21-1 downwards of step-down gear 22-2 by shaft coupling, the lower end of reactor stir shaft 22-3 is stretched in the inner ring of Limit Bearing 22-6, and with the inner ring wringing fit of Limit Bearing 22-6.Reactor agitating vane 22-4 is a steel blade, and is fixed on the reactor stir shaft 22-3.

See Fig. 5, the protector 23 that feeds intake comprises hopper 23-1, the first valve 23-2, container 23-3, the vacuum orifice 23-4 that feeds intake, discharge nozzle 23-5 and the second valve 23-6.Container 23-3 is the integral piece that steel plate is made through the punching press welding, central part on the plate body at the top of container 23-3 has the circular hole as opening for feed, also have near the circular hole as vacuum orifice that is positioned at the opening for feed on the plate body at the top of container 23-3, the central part on the plate body of the bottom of container 23-3 has the circular hole as discharge port.Hopper 23-1 by its discharge port position that is positioned at the lower end from the plate body of the airtight opening for feed that is weldingly fixed on container 23-3 in top.The first valve 23-2 is arranged on the bottom of hopper 23-1, and whether the material that enters hopper 23-1 is entered container 23-3 controls.The vacuum orifice spare 23-4 that feeds intake is airtight to be weldingly fixed on the plate body at vacuum orifice place at top of container 23-3.The upper end of discharge nozzle 23-5 is airtight to be weldingly fixed on the plate body at discharge port place of container 23-3, and the lower end of discharge nozzle 23-5 is airtight to be weldingly fixed on the plate body at auxiliary agent material mouth place of reactor kettle 21-1.The second valve 23-6 is arranged on the discharge nozzle 23-5, and whether enters reactor kettle 21-1 and control entering material among the discharge nozzle 23-5.

See Fig. 6, rubber removes low molecular device 3 and comprises and take off low still 31, tubulation preheater 32 and card 33.

Taking off low still 31 comprises and takes off low still master kettle 31-1, overhead guard 31-2, takes off low still and vacuumize mouthpiece 31-3, take off low still chuck plate 31-4, the 3rd bleeder valve 31-5 and take off low still and show mirror 31-6; Take off low still chuck plate 31-4 and the low still chuck 31-7 that takes off that takes off the common formation of low still master kettle 31-1.

The middle and upper part of taking off low still master kettle 31-1 is a cylindrical shell, and the bottom of taking off low still master kettle 31-1 is the inverted cone housing.The height that takes off the middle and upper part housing of low still master kettle 31-1 is 2 meters, and the height of lower case is 1 meter.

The top of overhead guard 31-2 is the segment housing, and the bottom of overhead guard 31-2 is a cylindrical shell, and the diameter of the middle and lower part of overhead guard 31-2 is less than the diameter of the middle and upper part of taking off low still master kettle 31-1.Overhead guard 31-2 is connected from upper fixed and takes off on the low still master kettle 31-1, and is positioned at the center of top opening part that takes off low still master kettle 31-1.

Take off low still and vacuumize mouthpiece 31-3 and have 2, airtight respectively being fixed on taken off on the low still master kettle 31-1, and is positioned at the corresponding opening part at the top of taking off low still master kettle 31-1.The 3rd bleeder valve 31-5 is a ball valve.The second bleeder valve 21-4 of rubber polymerizing reactor 2 is airtight being fixedly connected on the overhead guard 31-2 from the top, and be positioned at the aperture position place of the center of top of overhead guard 31-2.The 3rd bleeder valve 31-5 is fixedly connected on from the below and takes off on the low still master kettle 31-1, and is positioned at the aperture position place of the bottom of taking off low still master kettle 31-1.Take off low still and show that mirror 31-6 is arranged on the middle part of taking off low still master kettle 31-1, show that by taking off low still mirror 31-6 can observe the situation of taking off low still 1 inside.

See Fig. 7 and Fig. 8, tubulation preheater 32 is arranged in the cylindrical shell of the overhead guard 31-2 that takes off low still 31.Tubulation preheater 32 is provided with the preheater rubber passage 32-1 of up/down perforation.Tubulation preheater 32 comprises preheater hot oil inlet pipe 32-2, preheater hot oil outlet pipe 32-3, preheater tubulation 32-4 and 2 preheater tube sheets.2 preheater tube sheets are called preheater upper tubesheet 32-5 and preheater lower tubesheet 32-6 by residing upper-lower position difference.The upper end of each single tube of preheater tubulation 32-4 is all airtight to be fixedly connected on the plate body at a corresponding pore place of preheater upper tubesheet 32-5, the lower end of each single tube of preheater tubulation 32-4 is all airtight to be fixedly connected on the plate body at a corresponding pore place of preheater lower tubesheet 32-6, and preheater upper tubesheet 32-5 and preheater lower tubesheet 32-6 be airtight to be fixedly connected on the inwall of cylindrical shell of overhead guard 31-2.The aperture position of preheater hot oil inlet pipe 32-2 bottom of the airtight cylindrical shell that is fixed on overhead guard 31-2 from the outside be positioned at the top of preheater lower tubesheet 32-6, and preheater hot oil inlet pipe 32-2 communicates with the inner chamber of overhead guard 31-2.The aperture position on preheater hot oil outlet pipe 32-3 top of the airtight cylindrical shell that is fixed on overhead guard 31-2 from the outside be positioned at the below of preheater upper tubesheet 32-5, and preheater hot oil outlet pipe 32-3 communicates with the inner chamber of overhead guard 31-2.The inner chamber of each single tube of preheater tubulation 32-4 is preheater rubber passage 32-1.

Card 33 is arranged in the cylindrical shell of the overhead guard 31-2 that takes off low still 31, and is positioned at the below of tubulation preheater 32.Have the tiny through hole 33-1 of tens thousand of upward and downwards on the card 33, the top of each through hole 33-1 is reverse frustoconic, and the bottom is that the aperture is 1 millimeter cylindrical (seeing Fig. 9 and Figure 10 for details).

Taking off low still chuck 31-7 is enclosed on the lateral outer of the middle and upper part housing that takes off low still master kettle 31-1 by taking off low still chuck plate 31-4, and be fixedly connected on the outer wall that takes off low still master kettle 31-1, thereby constitute with taking off an air casing of formation between the low still chuck plate 31-4 taking off low still master kettle 31-1 by the plate end of the inside bending of its upper and lower ends.The bottom, side of taking off low still chuck 31-7 is provided with takes off low still hot oil inlet pipe 31-7-1, and the top, side of taking off low still chuck 31-7 is provided with takes off low still hot oil outlet pipe 31-7-2.

See Figure 11, rubber receiver and go out adhesive dispenser 4 and comprise tank body 41, spiral coil cooling tube 42, tubulation water cooler 43 and the 4th bleeder valve 44.

Tank body 41 comprises that it is the can body 41-4 of cylinder hull shape that tank body nitrogen interfacing conveyor spare 41-1, tank body vacuumize mouthpiece 41-2, spiral coil cooling tube mouthpiece 41-3, tank body cooling water jecket plate 41-6 and basic configuration.Tank body cooling water jecket plate 41-6 and can body 41-4 constitute tank body cooling water jecket 41-5 jointly.Tank body nitrogen interfacing conveyor spare 41-1 and tank body vacuumize that mouthpiece 41-2 is all airtight to be fixed on the can body 41-4, and are positioned at the corresponding opening part at the top of can body 41-4; Spiral coil cooling tube mouthpiece 41-3 has 2, divide position lower interface spare 41-3-1 and last mouthpiece 41-3-2, lower interface spare 41-3-1 is from the plate body of the corresponding tapping of the airtight bottom, side that is fixed on can body 41-4, the outside, and last mouthpiece 41-3-2 is from the plate body of the corresponding tapping on the airtight top, side that is fixed on can body 41-4, the outside.

Spiral coil cooling tube 42 is arranged on the inside of can body 41-4, is fixed on the can body 41-4 by support.The lower end mouth of pipe 42-1 of spiral coil cooling tube 42 is airtight to be fixed on the connecting portion that is positioned at can body 41-4 of lower interface spare 41-3-1, and the upper end mouth of pipe 42-2 of spiral coil cooling tube 42 is airtight to be fixed on the connecting portion that is positioned at can body 41 of mouthpiece 41-3-2.The lower end mouth of pipe 42-1 of spiral coil cooling tube 42 is the water inlet port of spiral coil cooling tube 42.The upper end mouth of pipe 42-2 of spiral coil cooling tube 42 is the water outlet port of spiral coil cooling tube 42.

Tubulation water cooler 43 comprises 2 radiator tube plate 43-5, water cooler tubulation 43-1, water cooler entrance of cooling water pipe 43-2, water cooler cooling water outlet pipe 43-3 and shell 43-4.Water cooler tubulation 43-1 and radiator tube plate 43-5 all are arranged in shell 43-4.2 radiator tube plate 43-5 are divided into water cooler upper tubesheet 43-5-1 and water cooler lower tubesheet 43-5-2.Water cooler upper tubesheet 43-5-1 and water cooler lower tubesheet 43-5-2 branch are fixed on up and down on the shell 43-4, the upper end of each root vertical tube of water cooler tubulation 43-1 all is fixed on the water cooler upper tubesheet 43-5-1, and the lower end of each root vertical tube of water cooler tubulation 43-1 all is fixed on the water cooler lower tubesheet 43-5-2.Water cooler entrance of cooling water pipe 43-2 and water cooler cooling water outlet pipe 43-3 are respectively from the plate body of the airtight corresponding position with pores that is fixed on shell 43-4 in the outside, water cooler entrance of cooling water pipe 43-2 is positioned at the bottom of shell 43-4, and be positioned at the top of water cooler lower tubesheet 43-5-2, water cooler cooling water outlet pipe 43-3 is positioned at the top of shell 43-4, and is positioned at the below (seeing Figure 12 and Figure 13 for details) of water cooler upper tubesheet 43-5-1.Tubulation water cooler 43 by its shell 43-4 from the below airtight being fixedly connected on the can body 41-4, and be positioned at the bottom center opening part of can body 41-4.

Tank body cooling water jecket 41-5 is enclosed on the outside of can body 41-4 by tank body cooling water jecket plate 41-6, and and be fixedly connected on the outer wall of can body 41-4, thereby between can body 41-4 and tank body cooling water jecket plate 41-6, form an air casing and constitute by the plate end of the inside bending of its upper and lower ends.The bottom, side of tank body cooling water jecket 41-5 is provided with tank body entrance of cooling water pipe 41-5-1, and the top, side of tank body cooling water jecket 41-5 is provided with tank body cooling water outlet pipe 41-5-2.

The 4th bleeder valve 44 is a ball valve.The 3rd bleeder valve 31-5 that rubber removes low molecular device 3 is airtight being fixedly connected on the can body 41-4 from the top, and be positioned at the aperture position place of the center of top of can body 41-4.The 4th bleeder valve 44 is fixedly connected on the shell 43-4 of tubulation water cooler 43 from the below, and is positioned at the aperture position place of shell 43-4 bottom.

The oil-in of hot oiling heating unit 6 removes the preheater hot oil outlet pipe 32-3 that hangs down low still hot oil outlet pipe 31-7-2 of taking off of molecular device 3 and tubulation preheater 32 with dehydration still hot oil outlet pipe 11-7-2, the reactor hot oil outlet pipe 21-5-2 of rubber polymerizing reactor 2, the rubber of rubber dewatering unit 1 respectively by corresponding pipeline and is connected.The oil outlet of hot oiling heating unit 6 removes the preheater hot oil inlet pipe 32-2 that hangs down low still hot oil inlet pipe 31-7-1 of taking off of molecular device 3 and tubulation preheater 32 with dehydration still hot oil inlet pipe 11-7-1, the reactor hot oil inlet pipe 21-5-1 of rubber polymerizing reactor 2, the rubber of rubber dewatering unit 1 respectively by corresponding pipeline and is connected.

Vacuum extractor 7 by corresponding pipeline vacuumize mouthpiece 21-2 with the reactor that the dehydration still of rubber dewatering unit 1 vacuumizes mouthpiece 11-2, rubber polymerizing reactor 2 respectively, the vacuum orifice spare 23-4 that feeds intake of the protector 23 that feeds intake, rubber remove tank body that the low still of taking off of low molecular device 3 vacuumizes mouthpiece 31-3 and rubber receiver and go out adhesive dispenser 4 and vacuumize mouthpiece 41-2 and be connected.

Nitrogen feedway 8 is connected with the tank body nitrogen interfacing conveyor spare 41-1 that goes out adhesive dispenser 4 with the dehydration still nitrogen interfacing conveyor spare 11-5 and the rubber receiver of rubber dewatering unit 1 respectively by corresponding pipeline.

The water-in of cooling water circulation refrigerating unit 9 by corresponding pipeline respectively with the rubber receiver with go out that mouthpiece 41-3-2 and water cooler cooling water outlet pipe 43-3 are connected on the tank body cooling water outlet pipe 41-5-2, spiral coil cooling tube of adhesive dispenser 4.The water outlet of cooling water circulation refrigerating unit 9 is connected with tank body entrance of cooling water pipe 41-5-1, the spiral coil cooling tube lower interface spare 41-3-1 and the water cooler entrance of cooling water pipe 43-2 that go out adhesive dispenser 4 with the rubber receiver respectively by corresponding pipeline.

The rubber production system of present embodiment in use, by product pump or high-level container the dehydration still dnockout mouthpiece 11-3 of liquid material by pipe connecting and rubber dewatering unit 1 added in the dehydration still 11 of rubber dewatering unit 1, start simultaneously vacuum pump by the dehydration still 11 the dehydration still vacuumize mouthpiece 11-2 and to the dehydration still 11 vacuumize.Deep fat enters the dehydration still chuck 11-7 from the dehydration still hot oil inlet pipe 11-7-1 of dehydration still chuck 11-7, and the dehydration still hot oil outlet pipe 11-7-2 from dehydration still chuck 11-7 flows out again, constantly circulation, thus the material in the dehydration still 11 is heated.Liquid nitrogen is after vaporizer is converted into gaseous state, enter in the nitrogen circle pipe 13 by nitrogen transfer line and nitrogen interfacing conveyor spare 11-5, production well 13-1 by nitrogen circle pipe 13 blows out again, dehydration still stirring mechanism 12 liquid towards materials stir, thereby make materials overturning flow, thermally equivalent, moisture wherein then is heated becomes water vapour, the nitrogen feed liquor attitude material that continues to flow in the stirring, and converge with water vapour in the liquid material.The nitrogen of carrying water vapour secretly then vacuumizes mouthpiece 11-2 discharge by the dehydration still of dehydration still 11.

After dehydration finishes; in the reactor kettle 21-1 of the first bleeder valve 11-4 by the reactor 21 of reactor dnockout mouthpiece 21-3 inflow rubber polymerizing reactor 2 of liquid material by the dehydration still 11 of rubber dewatering unit 1, the first valve 23-2 and the second valve 23-6 of the protector 23 that feeds intake of this moment all are in closing condition.Start simultaneously that the reactor of vacuum pump by reactor 21 vacuumizes mouthpiece 21-2 and the reactor kettle 21-1 of reactor 21 is vacuumized.Open the first valve 23-2 of the protector 23 that feeds intake; auxiliary agents such as catalyzer, molecular weight regulator, contents of ethylene control agent are poured among the container 23-3 by hopper 23-1; close the first valve 23-2 then; restarting other vacuum pump vacuumizes mouthpiece 23-4 by the feeding intake of protector 23 that feed intake and container 23-3 is vacuumized; open the second valve 23-6 again, make auxiliary agent flow in the reactor kettle 21-1.The reactor deep fat enters the reacting kettle jacketing 21-5 from the reactor hot oil inlet pipe 21-5-1 of chuck 21-5, and the reactor hot oil outlet pipe 21-5-2 from reacting kettle jacketing 21-5 flows out again, constantly circulation, thus the material in the reactor kettle 21-1 is heated.22 pairs of materials of reactor stirring mechanism stir, thereby make materials overturning flow thermally equivalent in the reactor kettle 21-1 that vacuumizes, polymerization reaction take place.

After reaction finished, the second bleeder valve 21-3 of material by the reactor 21 of rubber polymerizing reactor 2 entered in the overhead guard 31-2 that takes off low still 31 that rubber removes low molecular device 3, the preheater rubber passage 32-1 of the tubulation preheater 32 of flowing through.Deep fat enters the tubulation preheater 32 from preheater hot oil inlet pipe 32-2, flows out from preheater hot oil outlet pipe 32-3 again, and constantly circulation, thus the rubber material in the tubulation preheater 32 is carried out preheating.The rubber streams is through the through hole 33-1 of card 33 subsequently, and the formation collodion silk falls into and takes off low still master kettle 31-1.Deep fat enters and takes off the low still chuck 31-7 from taking off the low still hot oil inlet pipe 31-7-1 of taking off of low still chuck 31-7, flow out from taking off the low still hot oil outlet pipe 31-7-2 of taking off of low still chuck 31-7 again, constantly circulation, thus the collodion silk that takes off among the low still master kettle 31-1 is heated.Low-molecular-weight line style methylvinyl-polysiloxane is volatilized because of being heated becomes gas, makes collodion silk remove low molecule taking off among the low still master kettle 31-1 of vacuumizing.

Collodion silk removes among low the 3rd bleeder valve 31-5 that divides the back to remove low molecular device 3 by rubber and enters the rubber receiver and go out in the can body 41-4 of adhesive dispenser 4, liquid nitrogen is after vaporizer is converted into gaseous state, feed nitrogen to can body 41-4 by the tank body nitrogen interfacing conveyor spare 41-1 on nitrogen transfer line and the tank body 41, start vacuum pump simultaneously and vacuumize mouthpiece 41-2 a jar intravital gas extraction by the tank body on the tank body 41.Water coolant enters in the spiral coil cooling tube 42 from the lower end mouth of pipe 42-1 of the conduct water inlet port of spiral coil cooling tube 42, and the upper end mouth of pipe 42-2 as the water outlet port from spiral coil cooling tube 42 flows out again, constantly circulation, thus the sizing material in the can body 41-4 is cooled off.Water coolant enters in the tank body cooling water jecket 41-5 from the tank body entrance of cooling water pipe 41-5-1 of tank body cooling water jecket 41-5, tank body cooling water outlet pipe 41-5-2 from tank body cooling water jecket 41-5 flows out again, constantly circulation, thus the sizing material in the can body 41 is cooled off.Slowly the flow through water cooler tubulation 43-1 of tubulation water cooler 43 of thick subsequently sizing material, water coolant enters in each root tubulation and shell 43-4 and the formed space of radiator tube plate 43-5 of tubulation water cooler 43 from the water cooler entrance of cooling water pipe 43-2 of tubulation water cooler 43, water cooler cooling water outlet pipe 43-3 from tubulation water cooler 43 flows out again, constantly circulation, thus the sizing material in the water cooler tubulation 43-1 of the tubulation water cooler 43 of flowing through is cooled off.Final sizing material is discharged from the 4th bleeder valve 44, and the rubber temperature drops to 50 ℃ at this moment, thereby can directly fall into the plastics bag that is enclosed within on the 4th bleeder valve 44, and the plastics bag that rubber will be housed is again put into carton and carried out packing.

Claims (8)

1. a rubber production system is characterized in that: comprise that rubber dewatering unit (1), rubber polymerizing reactor (2), rubber remove low molecular device (3), rubber receiver and go out adhesive dispenser (4), hot oiling heating unit (6), vacuum extractor (7), nitrogen feedway (8) and cooling water circulation refrigerating unit (9);

Rubber dewatering unit (1) comprises dehydration still (11), dehydration still stirring mechanism (12) and nitrogen circle pipe (13); Dehydration still (11) comprises dehydration still kettle (11-1) and first bleeder valve (11-4); Dehydration still stirring mechanism (12) comprises dehydration still stir shaft (12-2) and is fixedly connected on dehydration still agitating vane (12-3) on the still stir shaft (12-2) that dewaters; Dehydration still stirring mechanism (12) is arranged in dehydration still kettle (11-1), and dehydration still stir shaft (12-2) and dehydration still agitating vane (12-3) are arranged in the still kettle (11-1) that dewaters; Nitrogen circle pipe (13) is arranged in the dehydration still kettle (11-1), and is positioned at the below of dehydration still stir shaft (12-2); Have one group of production well (13-1) that opening makes progress on the body of nitrogen circle pipe (13); Nitrogen circle pipe (13) is positioned on the inner connecting portion of dehydration still kettle (11-1) by the airtight dehydration still nitrogen interfacing conveyor spare (11-5) that is connected dehydration still (11) of its nitrogen inlet end (13-2); First bleeder valve (11-4) is the airtight discharge port that is fixedly connected on the bottom of dehydration still kettle (11-1) from the below;

Rubber polymerizing reactor (2) comprises reactor (21) and reactor stirring mechanism (22); Reactor (21) comprises reactor kettle (21-1) and second bleeder valve (11-4); Reactor stirring mechanism (22) comprises reactor stir shaft (22-3) and is fixedly connected on reactor agitating vane (22-4) on the reactor stir shaft (22-3); Reactor stirring mechanism (22) is arranged on the reactor kettle (21-1), and reactor stir shaft (22-3) and reactor agitating vane (22-4) are arranged in reactor kettle (21-1); First bleeder valve (11-4) also is connected from the kettle (21-1) of top with the reactor (21) of rubber polymerizing reactor (2) by corresponding pipeline; The discharge port of second bleeder valve (11-4) bottom of the airtight kettle (21-1) that is fixedly connected on reactor (21) from the below;

Rubber removes low molecular device (3) and comprises and take off low still (31), tubulation preheater (32) and card (33), takes off low still (31) and comprises and take off low still kettle and the 3rd bleeder valve (31-5); Taking off low still kettle comprises and takes off low still master kettle (31-1) and airtight being fixedly connected on taken off low still master kettle (31-1) center of top hole and located overhead guard (31-2) on the plate body; Tubulation preheater (32) and card (33) are arranged in the overhead guard (31-2) according to order from top to bottom; Second bleeder valve (11-4) is the airtight open top position that is fixedly connected on the overhead guard (31-2) that takes off low still (31) from the top also; The 3rd bleeder valve (31-5) is the airtight aperture position that is fixedly connected on the bottom of taking off low still master kettle (31-1) from the below;

Rubber receiver and go out adhesive dispenser (4) and comprise tank body (41), spiral coil cooling tube (42), tubulation water cooler (43) and the 4th bleeder valve (44); Tank body (41) comprises can body (41-4); Spiral coil cooling tube (42) is arranged in the can body (41-4), and the cooling water intakeoutfall of spiral coil cooling tube (42) is airtight respectively is connected on the airtight corresponding interface part (41-3) that is fixed on the can body (41-4); Tubulation water cooler (43) by the last end interface of its shell (43-4) from the plate body of the airtight lower end medium pore that is fixed on can body (41-4) in below; The 3rd bleeder valve (31-5) is also airtight from the top to be fixedly connected on the rubber receiver and to go out on the plate body in center of top hole of can body (41-4) of adhesive dispenser (4); The 4th bleeder valve (44) is the airtight lower end interface position that is fixedly connected on the rubber receiver and the shell (43-4) of the tubulation water cooler (43) that goes out adhesive dispenser (4) from the below;

The oil inlet and outlet of hot oiling heating unit (6) removes the chuck separately that takes off low still (31) of low molecular device (3) with dehydration still (11), the reactor (21) of rubber polymerizing reactor (2), the rubber of rubber dewatering unit (1) respectively by corresponding pipeline and tubulation preheater (32) that rubber removes low molecular device (3) is connected;

Vacuum extractor (7) is connected with the tank body (41) that takes off low still (31) and rubber receiver and go out adhesive dispenser (4) that dehydration still (11), the reactor (21) of rubber polymerizing reactor (2), the rubber of rubber dewatering unit (1) remove low molecular device (3) respectively by corresponding pipeline;

Nitrogen feedway (8) is connected with dehydration still nitrogen interfacing conveyor spare (11-5) by corresponding pipeline, also is connected with rubber receiver and the tank body (41) that goes out adhesive dispenser (4) by corresponding pipeline;

The intake-outlet of cooling water circulation refrigerating unit (9) is connected with rubber receiver and the spiral coil cooling tube (42) and the tubulation water cooler (43) that go out adhesive dispenser (4) respectively by corresponding pipeline.

2. according to the described rubber production system of claim 1, it is characterized in that: the dehydration still (11) of described rubber dewatering unit (1) comprises that also the dehydration still vacuumizes mouthpiece (11-2), dehydration still dnockout mouthpiece (11-3) and dehydration still chuck plate (11-6); Dehydration still chuck (11-7) constitutes by dehydration still chuck plate (11-6) and dehydration still kettle (11-1) are common, the dehydration still chuck (11-7) of still (11) of also promptly dewatering is enclosed on the sidepiece of outer wall of dehydration still kettle (11-1) by dehydration still chuck plate (11-6), and be fixed on the outer wall of dehydration still kettle (11-1) by the plate end of the inside bending of its upper and lower ends, thereby between dehydration still kettle (11-1) and dehydration still chuck plate (11-6) air casing of formation and constituting; The bottom, side of dehydration still chuck (11-7) is provided with dehydration still hot oil inlet pipe (11-7-1), and the top, side of dehydration still chuck (11-7) is provided with dehydration still hot oil outlet pipe (31-7-2); Dehydration still (11) vacuumizes mouthpiece (11-2) by its dehydration still and is connected with vacuum extractor (7) by corresponding pipeline; Dehydration still dnockout mouthpiece (11-3) is the parts of input liquid material; The dehydration still vacuumizes the top that mouthpiece (11-2) and dehydration still dnockout mouthpiece (11-3) all are arranged on the still kettle (11-1) that dewaters; Dehydration still nitrogen interfacing conveyor spare (11-5) is installed in the bottom of the sidepiece of dehydration still kettle (11-1);

Dehydration still stirring mechanism (12) also comprises reducing motor (12-1; Dehydration still stirring mechanism (12) is fixedly connected on the dehydration still kettle (11-1) of dehydration still (11) by the base of reducing motor (12-1), and is positioned at the center of top position of dehydration still kettle (11-1); The upper end of dehydration still stir shaft (12-2) links to each other with the lower end of stretching into the power output shaft in the dehydration still kettle (11-1) of reducing motor (12-1) by shaft coupling;

One end of nitrogen circle pipe (13) opens wide, and the other end is airtight; An end that opens wide of nitrogen circle pipe (13) is nitrogen inlet end (13-2).

3. according to the described rubber production system of claim 2, it is characterized in that: the nitrogen circle pipe (13) of described rubber dewatering unit (1) is for the large semi-circular pipe that tangentially stretches out pipeline section, and having diameter that an opening makes progress every 10 to 20 degree on the body of the pipeline section of the large semi-circular of nitrogen circle pipe (13) is 5 to 15 millimeters circular production well (13-1).

4. according to the described rubber production system of claim 1, it is characterized in that: described rubber polymerizing reactor (2) also comprises the protector that feeds intake (23);

Reactor (21) comprises that also reactor vacuumizes mouthpiece (21-2), reactor dnockout mouthpiece (21-3) and reacting kettle jacketing plate (21-6); Reacting kettle jacketing (21-5) constitutes by reacting kettle jacketing plate (21-6) and reactor kettle (21-1) are common, also be that reacting kettle jacketing (21-5) is enclosed on the lateral outer of reactor kettle (21-1) by reacting kettle jacketing plate (21-6), and be fixedly connected on the outer wall of reactor kettle (21-1), thereby between reactor kettle (21-1) and reacting kettle jacketing plate (21-6), form an air casing and constitute by the plate end of the inside bending of its upper and lower ends; The bottom, side of reacting kettle jacketing (21-5) is provided with reactor hot oil inlet pipe (21-5-1), and the top, side of reacting kettle jacketing (21-5) is provided with reactor hot oil outlet pipe (21-5-2); Reactor (21) vacuumizes mouthpiece (21-2) by its reactor and is connected with vacuum extractor (7) by corresponding pipeline; Reactor dnockout mouthpiece (21-3) is the parts of input liquid material; Reactor vacuumizes the top that mouthpiece (21-2) and reactor dnockout mouthpiece (21-3) all are arranged on reactor kettle (21-1);

Reactor stirring mechanism (22) also comprises variable-frequency motor (22-1), step-down gear (22-2), fixed support (22-5) and Limit Bearing (22-6); The motor shaft of variable-frequency motor (22-1) also is the power input shaft of step-down gear (22-2), step-down gear (22-2) is fixedly connected on the reactor kettle (21-1) of reactor (21) by its base, and is positioned at the center of top position of reactor kettle (21-1); Fixed support (22-5) is fixed in the reactor kettle (21-1) of reactor (21), and is positioned at the central position of the bottom of reactor kettle (21-1); Limit Bearing (22-6) is installed on the fixed support (22-5), and is positioned at the top of fixed support (22-5); The upper end of reactor stir shaft (22-3) links to each other with the lower end that stretches into the power output shaft in the reactor kettle (21-1) downwards of step-down gear (22-2) by shaft coupling, the lower end of reactor stir shaft (22-3) is stretched in the inner ring of Limit Bearing (22-6), and with the inner ring wringing fit of Limit Bearing (22-6); Reactor agitating vane (22-4) is fixed on the reactor stir shaft (22-3);

The protector (23) that feeds intake comprises hopper (23-1), first valve (23-2), container (23-3), feeding intake vacuumizes mouthpiece (23-4), discharge nozzle (23-5) and second valve (23-6); Hopper (23-1) is linked to each other with the opening for feed of container (23-3) by the discharge port that it is positioned at the lower end, and is positioned at the top at the top of container (23-3); First valve (23-2) is arranged on the bottom of hopper (23-1); Feed intake and vacuumize the side that mouthpiece (23-4) is arranged on the top of container (23-3); The discharge port that is positioned at the bottom of the upper end of discharge nozzle (23-5) and container (23-3) links to each other, and the lower end of discharge nozzle (23-5) is fixed on the top of the reactor kettle (21-1) of reactor (21), and with the intracavity inter-connection of reactor kettle (21-1); Second valve (23-6) is arranged on the discharge nozzle (23-5); The protector (23) that feeds intake is fed intake by it and vacuumizes mouthpiece (23-4) and be connected with vacuum extractor (7) by corresponding valve and pipeline.

5. according to the described rubber production system of claim 1, it is characterized in that: the low still (31) that takes off that described rubber removes low molecular device (3) comprises that also taking off low still vacuumizes mouthpiece (31-3) and take off low still chuck plate (31-4); Taking off low still chuck (31-7) constitutes jointly by taking off low still chuck plate (31-4) and taking off low still master kettle (31-1), also promptly taking off low still chuck (31-7) is enclosed on the lateral outer of the middle and upper part housing that takes off low still master kettle (31-1) by taking off low still chuck plate (31-4), and be fixedly connected on the outer wall that takes off low still master kettle (31-1), thereby constitute taking off an air casing of formation between low still master kettle (31-1) and the chuck plate by the plate end of the inside bending of its upper and lower ends; The bottom, side of taking off low still chuck (31-7) is provided with takes off low still hot oil inlet pipe (31-7-1), and the top, side of taking off low still chuck (31-7) is provided with takes off low still hot oil outlet pipe (31-7-2); The middle and upper part of taking off low still master kettle (31-1) is a cylindrical shell, and the bottom of taking off low still master kettle (31-1) is the inverted cone housing; The top of overhead guard (31-2) is the segment housing, and the bottom of overhead guard (31-2) is a cylindrical shell; The diameter of the middle and lower part of overhead guard (31-2) is less than the diameter of the middle and upper part of taking off low still master kettle (31-1); Take off low still and vacuumize mouthpiece (31-3) and have 2, airtight respectively being fixed on taken off on the low still master kettle (31-1), and is positioned at the corresponding opening part at the top of taking off low still master kettle (31-1); Taking off low still (31) takes off low still by it and vacuumizes mouthpiece (31-3) and be connected with vacuum extractor (7) by corresponding pipeline;

Tubulation preheater (32) is arranged in the cylindrical shell of the overhead guard (31-2) that takes off low still (31); Tubulation preheater (32) is provided with the preheater rubber passage (32-1) of up/down perforation;

Card (33) is arranged in the cylindrical shell of the overhead guard (31-2) that takes off low still (31), and is positioned at the below of tubulation preheater (32); Card (33) is gone up the tiny through hole (33-1) of the upward and downward that gathers; The top of each through hole (33-1) is reverse frustoconic, and the bottom is cylindrical.

6. according to the described rubber production system of claim 5, it is characterized in that: the tubulation preheater (32) that described rubber removes low molecular device (3) comprises preheater hot oil inlet pipe (32-2), preheater hot oil outlet pipe (32-3), preheater tubulation (32-4) and 2 preheater tube sheets; 2 preheater tube sheets are called preheater upper tubesheet (32-5) and preheater lower tubesheet (32-6) by residing upper-lower position difference; The upper end of each single tube of tubulation is all airtight to be fixedly connected on the plate body at a corresponding pore place of preheater upper tubesheet (32-5), the lower end of each single tube of tubulation is all airtight to be fixedly connected on the plate body at a corresponding pore place of preheater lower tubesheet (32-6), and preheater upper tubesheet (32-5) and preheater lower tubesheet (32-6) be airtight to be fixedly connected on the inwall of cylindrical shell of overhead guard (31-2); The aperture position of preheater hot oil inlet pipe (32-2) bottom of the airtight cylindrical shell that is fixed on overhead guard (31-2) from the outside, be positioned at the top of preheater lower tubesheet (32-6), and preheater hot oil inlet pipe (32-2) communicates with the inner chamber of overhead guard (31-2); The aperture position on preheater hot oil outlet pipe (32-3) top of the airtight cylindrical shell that is fixed on overhead guard (31-2) from the outside, be positioned at the below of preheater upper tubesheet (32-5), and preheater hot oil outlet pipe (32-3) communicates with the inner chamber of overhead guard (31-2); The inner chamber of each single tube of preheater tubulation (32-4) is preheater rubber passage (32-1);

The low still (31) that takes off that described rubber removes low molecular device (3) comprises that also taking off low still shows mirror (31-6); Take off low still and show that mirror (31-6) is arranged on the middle part of taking off low still master kettle (31-1);

The aperture of bottom of through hole (33-1) that described rubber removes the card (33) of low molecular device (3) is 0.8 to 1.5 millimeter.

7. according to the described rubber production system of claim 1, it is characterized in that: described rubber receiver comprises also that with the tank body (41) that goes out adhesive dispenser (4) tank body nitrogen interfacing conveyor spare (41-1), tank body vacuumize mouthpiece (41-2), spiral coil cooling tube mouthpiece (41-3) and tank body chuck plate (41-6); The basic configuration of can body (41-4) is the cylinder hull shape; Tank body cooling water jecket (41-5) constitutes by tank body chuck plate (41-6) and can body (41-4) are common, also be that tank body cooling water jecket (41-5) is enclosed on the outside of can body (41-4) by tank body chuck plate (41-6), and and be fixedly connected on the outer wall of can body (41-4), thereby between can body (41-4) and tank body chuck plate (41-6), form an air casing and constitute by the plate end of the inside bending of its upper and lower ends; The bottom, side of tank body cooling water jecket (41-5) is provided with tank body entrance of cooling water pipe (41-5-1), and the top, side of tank body cooling water jecket (41-5) is provided with tank body cooling water outlet pipe (41-5-2); Tank body (41) is connected with nitrogen feedway (8) by corresponding pipeline by its tank body nitrogen interfacing conveyor spare (41-1); Tank body (41) vacuumizes mouthpiece (41-2) by its tank body and is connected with vacuum extractor (7) by corresponding pipeline; Tank body nitrogen interfacing conveyor spare (41-1) and tank body vacuumize on the plate body of corresponding tapping at all airtight top that is fixed on can body (41-4) of mouthpiece (41-2); Spiral coil cooling tube mouthpiece (41-3) has 2, be divided into lower interface spare (41-3-1) and last mouthpiece (41-3-2), lower interface spare (41-3-1) is from the plate body of the corresponding tapping of the airtight bottom, side that is fixed on can body (41-4), the outside, and last mouthpiece (41-3-2) is from the plate body of the corresponding tapping on the airtight top, side that is fixed on can body (41-4), the outside;

Spiral coil cooling tube (42) is arranged on the inside of can body (41-4), is fixed on the can body (41-4) by support; The lower end mouth of pipe (42-1) of spiral coil cooling tube (42) is airtight to be fixed on the connecting portion that is positioned at can body (41-4) of lower interface spare (41-3-1), and the upper end mouth of pipe (42-2) of spiral coil cooling tube (42) is airtight to be fixed on the connecting portion that is positioned at can body (41-4) of mouthpiece (41-3-2);

Tubulation water cooler (43) comprises 2 radiator tube plates (43-5), water cooler tubulation (43-1) and shell (43-4); Water cooler tubulation (43-1) and radiator tube plate (43-5) all are arranged in shell (43-4); 2 radiator tube plates (43-5) are divided into water cooler upper tubesheet (43-5-1) and water cooler lower tubesheet (43-5-2); Water cooler upper tubesheet (43-5-1) and water cooler lower tubesheet (43-5-2) branch are fixed on up and down on the shell (43-4), the upper end of each root vertical tube of water cooler tubulation (43-1) all is fixed on the water cooler upper tubesheet (43-5-1), and the lower end of each root vertical tube of water cooler tubulation (43-1) all is fixed on the water cooler lower tubesheet (43-5-2); Tubulation water cooler (43) by its shell (43-4) from the below airtight being fixedly connected on the can body (41-4), and be positioned at the bottom center opening part of can body (41-4).

8. according to the described rubber production system of claim 7, it is characterized in that: described rubber receiver is the water inlet port of spiral coil cooling tube (42) with the lower end mouth of pipe (42-1) that goes out the spiral coil cooling tube (42) of adhesive dispenser (4); The upper end mouth of pipe (42-2) of spiral coil cooling tube (42) is the water outlet port of spiral coil cooling tube (42);

Described rubber receiver also comprises water cooler entrance of cooling water pipe (43-2) and water cooler cooling water outlet pipe (43-3) with the tubulation water cooler (43) that goes out adhesive dispenser (4); Water cooler entrance of cooling water pipe (43-2) and water cooler cooling water outlet pipe (43-3) are respectively from the plate body of the corresponding position with pores of the airtight shell (43-4) that is fixed on tubulation water cooler (43) in the outside, water cooler entrance of cooling water pipe (43-2) is positioned at the bottom of shell (43-4), and be positioned at the top of water cooler lower tubesheet (43-5-2), water cooler cooling water outlet pipe (43-3) is positioned at the top of shell (43-4), and is positioned at the below of water cooler upper tubesheet (43-5-1).

Images