CN208177390U - The production system of modifying agent - Google Patents

Abstract

The utility model provides a kind of production system of modifying agent, for a variety of raw material mixtures to be formed modifying agent, including mixing arrangement, the charging port that mixing arrangement has mixing chamber and is connected to mixing chamber, and charging port is arranged relative to mixing arrangement top close to the bottom end of mixing arrangement.When the utility model solves the raw material in the prior art being added from charging port into mixing chamber, raw material, which are easy to contact with the air in mixing chamber, occurs deflagration phenomenon, so as to cause the problem of the production system safety in operation difference of modifying agent.

Description

The production system of modifying agent

Technical field

The utility model relates to water-repellent paint technical fields, in particular to a kind of production system of modifying agent.

Background technique

Water-repellent paint is common construction material in building field, and uncured rubber asphalt waterproof coating is in water-repellent paint One kind, there is self-healing, antiseep, anti-channeling with good creep ability, and because it is with good creep ability Water, antifatigue, ageing-resistant and unstressed etc. application performance outstanding；Uncured rubber asphalt waterproof coating can be by pitch The technique of middle addition modifying agent is made.

In the prior art, the production system of modifying agent generally includes mixing arrangement, mixing arrangement have mixing chamber and with it is mixed The charging port of chamber connection is closed, a variety of raw material are delivered in mixing chamber by charging port, when the former material stored in mixing chamber Expect it is less, when raw material being added into mixing chamber from charging port, raw material be easy contacted with the air in mixing chamber generation it is quick-fried Phenomenon is fired, it is poor so as to cause the production system safety in operation of modifying agent.

Utility model content

The main purpose of the utility model is to provide a kind of production system of modifying agent, with solve it is in the prior art from When the raw material that charging port is added into mixing chamber, raw material, which are easy to contact with the air in mixing chamber, occurs deflagration phenomenon, So as to cause the problem of the production system safety in operation difference of modifying agent.

To achieve the goals above, the utility model provides a kind of production system of modifying agent, is used for a variety of former materials Material mixture forms modifying agent, comprising: mixing arrangement, the charging port that mixing arrangement has mixing chamber and is connected to mixing chamber, and Charging port is arranged relative to mixing arrangement top close to the bottom end of mixing arrangement.

Further, mixing arrangement also has feed inlet, and feed inlet is located at the top of mixing arrangement, and feed inlet is used for portion Raw material are divided to be added to mixing chamber.

Further, the raw material to mixing chamber are added by feed inlet is cosolvent.

Further, the production system of modifying agent further includes conveying device, and the output end and charging port of conveying device connect It connects, for part raw material to be delivered in mixing chamber.

Further, sending the raw material in mixing chamber by conveying device transport includes reclaimed rubber, additive and rubber Cross-linking aid.

Further, it is connected between the output end of conveying device and the charging port of mixing arrangement by flexible steel in flat section tubing.

Further, mixing arrangement also has the discharge end being connected to mixing chamber, and production system further includes colloid mill, glue Body mill is connected to the discharge end of mixing arrangement.

Further, production system further includes delivery pump, and delivery pump is set between colloid mill and mixing arrangement, will be mixed It attaches together and sets the modifying agent that interior a variety of raw material mixtures are formed and be delivered at colloid mill.

Further, production system further includes storage device, and storage device is connected to colloid mill and is located under colloid mill Trip.

Further, the production system of modifying agent further includes agitating device, is provided on mixing arrangement and/or storage device Agitating device, agitating device include sequentially connected driving element, rotation axis and agitating paddle, wherein agitating paddle be it is multiple, it is multiple Agitating paddle is arranged along the axially spaced-apart of rotation axis.

Using the technical solution of the utility model, charging port on mixing arrangement to open up position reasonable, work as mixing chamber When being inside stored with a small amount of raw material, the mixture liquid level in mixing chamber can also be located on charging port, to mix Intracavitary mixture plays the role of the fluid-tight to charging port, that is to say, that when part raw material are entered by charging port When mixing chamber, it can be avoided and contacted with the air in mixing chamber, and then blocked the burning condition of part raw material, effectively prevent Stop part raw material and deflagration phenomenon occurs, improves the safety in operation of the production system of modifying agent.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

Fig. 1 shows a kind of structural representation of the production system of the modifying agent of alternative embodiment according to the present utility model Figure；

Fig. 2 shows the enlarged diagrams at the A in Fig. 1；

Fig. 3 shows the enlarged diagram at the B in Fig. 1.

Wherein, the above drawings include the following reference numerals:

10, mixing arrangement；11, mixing chamber；12, charging port；13, feed inlet；14, discharge end；20, conveying device； 30, flexible steel in flat section tubing；40, the first mounting flange；41, the first installation pipeline section；42, via hole；50, the second mounting flange；51, second Pipeline section is installed；60, colloid mill；70, delivery pump；80, storage device；81, storage chamber；82, input port；83, output port； 90, plugging device；91, driving portion；92, plug；93, swing arm；100, agitating device；101, rotation axis；102, agitating paddle；110, Liquid collection portion；111, gathering element；1111, collecting chamber；1112, collection port；1113, groove；112, driving element；120, it stores up Cryopreservation device conveyance conduit；121, nozzle is exported；122, the first pipeline section；123, the second pipeline section；130, connecting flange；140, packaging dress It sets；150, flowmeter；160, valve；170, pump is transported；180, heat compensation system；181, heat source portion；182, heat compensation pipe； 190, the first modifying agent conveyance conduit；200, the second modifying agent conveyance conduit.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Be to the description only actually of at least one exemplary embodiment below it is illustrative, never as to this is practical Novel and its application or any restrictions used.Based on the embodiments of the present invention, those of ordinary skill in the art are not having Every other embodiment obtained under the premise of creative work is made, is fallen within the protection scope of the utility model.

When in order to solve the raw material in the prior art being added from charging port into mixing chamber, raw material be easy with it is mixed It closes intracavitary air contact and deflagration phenomenon occurs, so as to cause the problem of the production system safety in operation difference of modifying agent, this reality A kind of production system of modifying agent is provided with novel.

It should be noted that the modifying agent mentioned in the application is used to be added in pitch, to change the character of pitch, To form the uncured rubber asphalt waterproof coating with excellent performance.

It should be noted that the liquid modifier mentioned in the application is to have preferable flowing in heated situation The modifying agent of performance.

As shown in Figure 1, the production system of modifying agent is used to a variety of raw material mixtures forming modifying agent, including mixing arrangement 10, the charging port 12 that mixing arrangement 10 has mixing chamber 11 and is connected to mixing chamber 11, and charging port 12 is relative to mixing 10 top of device is arranged close to the bottom end of mixing arrangement 10.

In this way, charging port 12 on mixing arrangement 10 to open up position reasonable, when being stored with a small amount of original in mixing chamber 11 When material, the mixture liquid level in mixing chamber 11 can also be located on charging port 12, thus mixed in mixing chamber 11 It closes object and plays the role of the fluid-tight to charging port 12, that is to say, that when part raw material enter mixing by charging port 12 When chamber 11, it can be avoided and contacted with the air in mixing chamber 11, and then blocked the burning condition of part raw material, effectively prevent Stop part raw material and deflagration phenomenon occurs, improves the safety in operation of the production system of modifying agent.

As shown in Figure 1, mixing arrangement 10 also has feed inlet 13, feed inlet 13 is located at the top of mixing arrangement 10, filling Mouth 13 is for being added part raw material to mixing chamber 11.It is added in this way, feed inlet 13 can be first passed through into mixing chamber 11 Liquid starting material, and make liquid starting material to progress fluid-tight at charging port 12.

Specifically, it first passes through feed inlet 13 and adds liquid starting material into mixing chamber 11, and make liquid starting material to charging Fluid-tight is carried out at port 12, and then passes through conveying device 20 from charging port 12 to 10 transport portion former material of mixing arrangement Deflagration phenomenon occurs for material, and then ensure that the life of modifying agent so that the raw material for avoiding charging port 12 from being added are contacted with air Produce system safety operation.

Optionally, being added by feed inlet 13 to the liquid starting material in mixing chamber 11 is cosolvent, optionally, cosolvent It one of raffinates oil including soybean oil, naphthenic oil, aromatic naphtha, furfural or a variety of.

As shown in Figure 1, the production system of modifying agent further includes conveying device 20, the output end and feed end of conveying device 20 Mouth 12 connects, for part raw material to be delivered in mixing chamber 11.In this way, can be by conveying device 20 from charging port 12 Place's transport portion raw material into mixing chamber 11.

Optionally, sending the raw material in mixing chamber 11 by the transport of conveying device 20 includes reclaimed rubber, additive and rubber Glue cross-linking aid.Wherein, additive is specialist additive, including one or more resins.

Specifically, it first passes through feed inlet 13 and adds quantitative cosolvent into mixing chamber 11, and keep the liquid level of cosolvent high Degree be located at charging port 12 top, at charging port 12 carry out fluid-tight, then by conveying device 20 into mixing chamber 11 Add reclaimed rubber, mixing arrangement 10 in mixing chamber 11 cosolvent and reclaimed rubber mix, after mixing, then lead to It crosses conveying device 20 and adds additive and rubber cross auxiliary agent into mixing chamber 11, mixing arrangement 10 is to a variety of in mixing chamber 11 Raw material carry out mixture and form modifying agent.

As shown in Figure 1, passing through flexible connection between the output end of conveying device 20 and the charging port 12 of mixing arrangement 10 Pipe 30 connects.In this way, flexible steel in flat section tubing 30 can play the role of vibration damping when mixing arrangement 10 vibrates, avoid conveying 20 device of device shakes with the vibration of mixing arrangement 10, to improve the job stability of conveying device 20.

Optionally, flexible steel in flat section tubing 30 is made of rubber, silica gel or plastics.

In the embodiment not shown of the application one, flexible steel in flat section tubing 30 is embedded in equipped with supporting element, and supporting element connects along flexible The axially consecutive coiling of adapter tube 30 is arranged.

In the another embodiment not shown of the application, flexible steel in flat section tubing 30 includes multiple annular metal pipes, two neighboring ring Hingedly to be spliced to form flexible steel in flat section tubing 30 between shape metal tube, and the inner tubal wall of each annular metal pipe is coated with corrosion-inhibiting coating, The raw material that corrosion-inhibiting coating can effectively avoid annular metal pipe from being conveyed by it corrode.

As shown in Fig. 2, being provided with the first mounting flange 40 at charging port 12, the output end of conveying device 20 is the second peace Flange 50 is filled, the both ends of flexible steel in flat section tubing 30 are connect with the first mounting flange 40 and the second mounting flange 50 respectively.In this way, passing through First mounting flange 40 and the second mounting flange 50 are set, made between flexible steel in flat section tubing 30 and conveying device 20 and mixing arrangement 10 It is to be detachably connected, convenient replacement and maintenance to flexible steel in flat section tubing 30.

As shown in Fig. 2, the first mounting flange 40, which protrudes above, is provided with the first installation pipeline section 41, the second mounting flange 50 is convex It is provided with the second installation pipeline section 51 out, the both ends of flexible steel in flat section tubing 30 are removably set in the first installation pipeline section 41 and respectively On two installation pipeline sections 51.By the first installation pipeline section 41 of setting and the second installation pipeline section 51, flexible steel in flat section tubing 30 and first is realized It is detachably connected between mounting flange 40 and the second mounting flange 50.

It should be noted that the first mounting flange 40 and the second mounting flange 50 are the flange component of assembled connection, The ring flange of flange component is bolted connection.

As shown in Figure 1, mixing arrangement 10 also has the discharge end 14 being connected to mixing chamber 11, production system further includes glue Body mill 60, colloid mill 60 is connected to the discharge end 14 of mixing arrangement 10, and specifically, colloid mill 60 is conveyed by the first modifying agent Pipeline 190 is connected to the discharge end 14 of mixing arrangement 10.Colloid mill 60 is simple with structure, maintenance is convenient, shearing is ground Grind the features such as functional.Colloid mill 60 is connected to the discharge end 14 of mixing arrangement 10, makes colloid mill 60 to mixing arrangement 10 The modifying agent that mixture is formed further shears grinding, makes modifying agent by further emulsification, dispersion, homogeneous and crushing, to mention Rise the performance of modifying agent.

As shown in Figure 1, production system further includes delivery pump 70, delivery pump 70 be set to colloid mill 60 and mixing arrangement 10 it Between, specifically, delivery pump 70 is arranged on the first modifying agent conveyance conduit 190, and a variety of raw material in mixing arrangement 10 are mixed Modifying agent with formation is delivered at colloid mill 60.By the way that delivery pump 70 is arranged, improves modifying agent and conveyed from mixing arrangement 10 Transfer efficiency to colloid mill 60.

As shown in Figure 1, production system further includes storage device 80, storage device 80 is connected to colloid mill 60 and is located at colloid The downstream of mill 60.In alternative embodiment shown in fig. 1, storage device 80 has storage chamber 81 and is connected to storage chamber 81 defeated Inbound port 82 and output port 83, the input port that colloid mill 60 passes through the second modifying agent conveyance conduit 200 and storage device 80 82 connections.In this way, the modifying agent after colloid mill 60 further shearing grinding is stored in storage device 80, be conducive to modification The storage and transport of agent.

As shown in Figure 1, the production system of modifying agent further includes agitating device 100, mixing arrangement 10 and/or storage device 80 On be provided with agitating device 100, agitating device 100 includes sequentially connected driving element, rotation axis 101 and agitating paddle 102, In, agitating paddle 102 is multiple, axially spaced-apart setting of multiple agitating paddles 102 along rotation axis 101.In this way, can star driving member Part drives rotation axis 101 to rotate, and rotation axis 101 drives agitating paddle 102 to rotate, and makes agitating paddle 102 to the original in mixing arrangement 10 Phenomena such as modifying agent in material or storage device 80 is stirred, keeps its more uniform, avoid precipitated and separated generation.

As depicted in figs. 1 and 2, the production system of modifying agent further includes plugging device 90, and the setting of plugging device 90 is mixing In chamber 11, the closure end of plugging device 90 can be selectively in the block-up position and evacuation charging port for blocking charging port 12 It is moved between 12 evacuation position.

In this way, moving to plugging device 90 when conveying raw material into mixing chamber 11 from needing from charging port 12 Position is avoided, raw material is enable to be added by charging port 12 to mixing chamber 11；When do not need from charging port 12 to In mixing chamber 11 when conveying raw material, so that plugging device 90 is moved to block-up position, charging port 12 is blocked, to keep away The liquid material being mixed to form by a variety of raw material exempted from mixing chamber 11 flows back from charging port, effectively prevents mixing chamber The loss of liquid material in 11, and effectively prevent liquid material and enter the conveying device 20 being connected to charging port 12 Interior pollution raw material, to improve the practicability of the production system of modifying agent.

As shown in Fig. 2, plugging device 90 includes driving portion 91 and plug 92, driving portion 91 is arranged in mixing arrangement 10 On wall, plug 92, which connect and formed with driving portion 91, blocks end, and plug 92 is under the driving effect of driving portion 91 in block-up position It is moved between evacuation position.In this way, passing through control when conveying raw material into mixing chamber 11 from needing from charging port 12 The start and stop of driving portion 91 make plug 92 move to evacuation position, raw material are enable to be added by charging port 12 to mixing chamber In 11；When raw material are conveyed into mixing chamber 11 from not needing from charging port 12, then the start and stop by controlling driving portion 91, So that plug 92 is moved to block-up position, charging port 12 blocked, thus avoid liquid material in mixing chamber 11 from into Expect to flow back at port.

As shown in Fig. 2, driving portion 91 is driving motor, plugging device 90 further includes swing arm 93, the first end of swing arm 93 with Driving portion 91 connects, and the second end of swing arm 93 is connect with plug 92, and driving portion 91 drives plug 92 to swing by swing arm 93.

In the embodiment not shown of the application one, driving portion 91 be hydraulic cylinder, hydraulic cylinder include cylinder body and it is telescopic with One end of the separate cylinder body of actuating arm is arranged in the actuating arm of cylinder body connection, plug 92.

Optionally, air-operated solenoid valve is provided on flexible steel in flat section tubing 30.Plug 92 is controlled by air-operated solenoid valve, mixing arrangement Hydraulically full material in 10 mixing chamber 11, charging port 12 be in liquid level hereinafter, liquid material pressure and air-powered electromagnetic Under the control of valve, plug 92 moves to block-up position, blocks to charging port 12；When part raw material are through conveying device 20 When being delivered to 92 front end of plug with flexible steel in flat section tubing 30, raw material fill flexible steel in flat section tubing 30 completely, to make flexible steel in flat section tubing Pressure in 30 is greater than the pressure that liquid material and air-operated solenoid valve in mixing arrangement 10 assign plug 92, at this point, plug 92 exists Evacuation position is moved under the action of air-operated solenoid valve, raw material enter in mixing chamber 11, and with the liquids in mixing chamber 11 Modifying agent is made in material mixture.Pressure after the raw material conveying conveyed by conveying device 20, in flexible steel in flat section tubing 30 Decline rapidly, at this point, plug 92 can move to rapidly block-up position under the control of solenoid valve, prevents the liquid in mixing chamber 11 Body material or raw material are back in flexible steel in flat section tubing 30 or conveying device 20.

As shown in Figure 1, the first mounting flange 40 has via hole 42, when plug 92 is in block-up position, the one of plug 92 It is protruded into via hole 42 after partially passing through charging port 12.

Optionally, the cross sectional shape of plug 92 is adapted with the opening shape of charging port 12, and the cross section of plug 92 Product is gradually reduced along the direction far from charging port 12.

Optionally, the cross section of the opening shape and plug 92 of charging port 12 is rounded.

Optionally, plug 92 is made of metal, rubber, silica gel or plastics.

In the alternative embodiment shown in Fig. 1 and Fig. 3, production system further includes that liquid collection portion 110 and storage device are defeated Pipeline 120 is sent, storage device conveyance conduit 120 is arranged at the output port 83 of storage device 80, and liquid collection portion 110 has Gathering element 111, gathering element 111 have liquid collecting position and resigning position；When gathering element 111 is at liquid collecting position, Gathering element 111 moves at the output nozzle 121 of storage device conveyance conduit 120, to collect storage device conveyance conduit 120 Interior liquid modifier；When gathering element 111, which is in, allows bit positions, the evacuation of gathering element 111 opens storage device delivery pipe The output nozzle 121 in road 120, so that storage device exports liquid modifier by storage device conveyance conduit 120 outward.

By the way that liquid collection portion 110 is arranged, storage device is being needed to export liquid outward by storage device conveyance conduit 120 When state modifying agent, control gathering element 111, which is in, allows bit positions, so that evacuation opens the output of storage device conveyance conduit 120 Nozzle 121 enables the liquid modifier in storage device to export outward by storage device conveyance conduit 120；When not needing When storage device exports liquid modifier outward, control gathering element 111 is at liquid collecting position, to storage device conveyance conduit Remaining liquid modifier is collected in 120, so as to avoid modifying agent remaining in storage device conveyance conduit 120 leakage Into external environment, be conducive to protect environment, while the modifying agent of collection can be recycled, modifying agent loss is avoided to cause wave Take.

As shown in figure 3, the collection port 1112 that gathering element 111 has collecting chamber 1111 and is connected to collecting chamber 1111, when When gathering element 111 moves to liquid collecting position, gathering element 111 is located at the lower section of storage device conveyance conduit 120, and collection port 1112 are oppositely arranged with output nozzle 121, to collect the liquid modifier in storage device conveyance conduit 120.In this way, when collecting When element 111 moves to liquid collecting position, the liquid modifier of storage device conveyance conduit 120 can be by exporting 121 He of nozzle Collection port 1112 enters in the collecting chamber 1111 of gathering element 111, and the liquid so as to avoid storage device conveyance conduit 120 changes Property agent, which leaks to, pollutes environment in external environment.

In order to be preferably collected to the liquid modifier in storage device conveyance conduit 120, when gathering element 111 is transported When moving to liquid collecting position, storage device conveyance conduit 120 abutted with gathering element 111 or storage device conveyance conduit 120 it is defeated Outlet spout 121 is protruded into collecting chamber 1111 by collection port 1112.

As shown in figure 3, the surface towards storage device conveyance conduit 120 of gathering element 111 opens up fluted 1113, receive Collection mouth 1112 is provided in the groove bottom of groove 1113, when gathering element 111 moves to liquid collecting position, storage device delivery pipe Road 120 is abutted with the groove bottom of groove 1113, and is exported nozzle 121 and covered collection port 1112.In such manner, it is possible to avoid storage device Gap location of the liquid modifier of conveyance conduit 120 between storage device conveyance conduit 120 and gathering element 111 leaks to outer In portion's environment, to promote the collecting effect to the liquid modifier in storage device conveyance conduit 120.

As shown in figure 3, liquid collection portion 110 further includes driving element 112, driving element 112 and gathering element 111 connect It connects, to drive gathering element 111 to move between liquid collecting position and resigning position.In this way, when needing storage device to pass through storage When device conveyance conduit 120 exports liquid modifier outward, the start and stop of driving element 112 are controlled, make that gathering element 111 is driven to transport It moves to resigning position；When not needing storage device and exporting liquid modifier outward, the start and stop of driving element 112 are controlled, make to drive Dynamic gathering element 111 moves to liquid collecting position, is collected to the liquid modifier in storage device conveyance conduit 120.

As shown in figure 3, storage device further includes valve 160 and controller, wherein the setting of valve 160 is defeated in storage device It send on pipeline 120, the unlatching and closure of controller control valve door 160；After valve 160 is closed, gathering element 111 is by resigning position It sets and moves to liquid collecting position, to collect being located between valve 160 and output nozzle 121 in storage device conveyance conduit 120 Liquid modifier.In this way, when needing storage device by the output liquid modifier outward of storage device conveyance conduit 120, control Device control valve 160 processed is opened, and is controlled gathering element 111 and be in and allow bit positions, and the liquid modifier in storage device is made It can be exported outward by storage device conveyance conduit 120；When not needing storage device and exporting liquid modifier outward, control Device control valve 160 is closed, and is controlled gathering element 111 and be at liquid collecting position, between valve 160 and output nozzle 121 Liquid modifier be collected, by setting valve 160 and controller, can be realized the automation control to storage device.

As shown in figure 3, storage device further includes flowmeter 150, flowmeter 150 is arranged in storage device conveyance conduit 120 The downstream for transporting pump 170 is gone up and is located at, flowmeter 150 is used to measure the liquid modifier in storage device conveyance conduit 120 Flow.In this way, the flow of the liquid modifier by storage device conveyance conduit 120 can be measured by flowmeter 150, more Intuitive and convenient.When needing from the conveying liquid modifier outward of storage device 80,170 starting of pump is transported in control unit control, when When the measurement result of flowmeter 150 is identical as the encapsulation flow of setting, it is out of service that pump 170 is transported in control unit control.

Optionally, flow is calculated as high-temperature stream meter.High temperature flowmeter is suitable for measuring the flow of higher temperature liquid, high temperature Flowmeter is easy for installation, convenient for safeguarding, and has good job stability.

As shown in figure 3, valve 160 is arranged relative to transport pump 170 close to flowmeter 150.In this way, when flowmeter 150 is surveyed When measuring through the flow of the liquid modifier of storage device conveyance conduit 120 and the identical encapsulation flow of setting, controller control Valve 160 processed is closed, and flowmeter 150 does not calculate the flow of the liquid modifier between valve 160 and flowmeter 150, To cause the flow of the liquid modifier of encapsulation to be greater than the encapsulation flow of setting, and energy is arranged close to flowmeter 150 in valve 160 Enough reduce measurement error.

In the embodiment not shown of the application one, liquid collection portion 110 further includes control element, control element and driving member Part 112 is electrically connected, to control the starting or closing of driving element 112.In this way, controlling driving element 112 by control element Starting is closed, so that controlling driving gathering element 111 moves to liquid collecting position or resigning position, and then is realized and is collected to liquid The automation control in portion 110.

In the embodiment not shown of the application one, storage device includes valve 160 and controller, and liquid collection portion 110 is wrapped Include control element, wherein control element is time-delay relay.In this way, exporting liquid modifier outward when not needing storage device When, controller control valve door 160 is closed, meanwhile, control element starting, the control driving gathering element after the delay time of setting 111 move to liquid collecting position, are collected to the liquid modifier between valve 160 and output nozzle 121；It is filled when needing to store When setting output liquid modifier outside by storage device conveyance conduit 120, controller control valve door 160 is opened, meanwhile, control Element starting, control driving gathering element 111 move to resigning position, the liquid modifier in storage device are enable to pass through storage Cryopreservation device conveyance conduit 120 exports outward.

In the embodiment not shown of the application one, storage device further includes heating portion, on storage device conveyance conduit 120 And/or heating portion is provided on gathering element 111, to be kept the temperature or be heated to liquid modifier.In this way, heating portion can be right Liquid modifier in storage device conveyance conduit 120 and/or gathering element 111 is kept the temperature or is heated, and liquid modifier is made With good mobility.

In this application, storage device 80 further includes delivery section, and liquid modifier is flowed by storage device conveyance conduit 120 Storage device 80 out, delivery section are arranged on storage device conveyance conduit 120, to control the logical of storage device conveyance conduit 120 The amount of disconnected state and the liquid modifier by the outflow storage device 80 of storage device conveyance conduit 120.By in storage device Delivery section is set on conveyance conduit 120, controls the on off operating mode of storage device conveyance conduit 120, thus to storage device is passed through The amount that conveyance conduit 120 flows out the liquid modifier of storage device 80 is controlled, and then is realized and quantified to liquid modifier Encapsulation, improve storage device practicability and property easy to use.

As shown in figures 1 and 3, delivery section includes that transport pump 170 and control unit (not shown), control unit pass through Control transports the start and stop state of pump 170 to realize the adjusting of the on off operating mode to storage device conveyance conduit 120, and control unit is logical It crosses control and transports the operating time of pump 170 to control and change by the liquid of the outflow storage device 80 of storage device conveyance conduit 120 The amount of property agent.In this way, pump 170 is transported in setting on storage device conveyance conduit 120, when needs convey outward from storage device 80 When liquid modifier, 170 starting of pump is transported in control unit control, and the liquid modifier in storage device 80 is transporting pump 170 Effect is lower to convey liquid modifier, the liquid of outflow storage device 80 as needed by storage device conveyance conduit 120 outward The amount of state modifying agent calculates the operating time for transporting pump 170, after transporting the operating time of 170 operation setups of pump, control unit Control is transported pump 170 and is stopped, to realize to the liquid modifier for flowing out storage device 80 by storage device conveyance conduit 120 Carry out quantitative control.

As shown in figure 3, storage device conveyance conduit 120 includes the first pipeline section 122 and the second pipeline section in bending-like connection 123, wherein the first pipeline section 122 is horizontally extending, and the second pipeline section 123 extends along the vertical direction.In this way, storage device is defeated When sending the liquid modifier in pipeline 120 by the second pipeline section 123, it can convey outward under gravity, improve liquid The efficiency that state modifying agent conveys outward reduces liquid modifier in the residual quantity of the wall built-up of storage device conveyance conduit 120.

As shown in figure 3, storage device 80 further includes connecting flange 130, storage device conveyance conduit 120 passes through connecting flange 130 removably connect with storage device 80.It is detachably connected between storage device conveyance conduit 120 and storage device 80, just In to storage device 80 or the progress repair and replacement of storage device conveyance conduit 120.

As shown in figure 3, the production system of modifying agent further includes packing device 140, packing device 140 is arranged in storage device At the output nozzle 121 of conveyance conduit 120, for being packaged to modifying agent.In this way, when the liquid modifier in storage device When being exported outward by storage device conveyance conduit 120, liquid modifier is collected and is encapsulated by packing device 140.

In the alternative embodiment shown in Fig. 3, storage device conveyance conduit 120 includes the first pipeline section in bending-like connection 122 and second pipeline section 123, packing device 140 is arranged in the lower section of the second pipeline section 123, and liquid collection portion 110 is in setting the At the nozzle of two pipeline sections 123.In this way, need storage device by storage device conveyance conduit 120 export outward it is liquid modified When agent, control liquid collection portion 110, which is in, allows bit positions, so that evacuation opens the output nozzle of storage device conveyance conduit 120 121, so that the liquid modifier in storage device is exported outward by storage device conveyance conduit 120, meanwhile, packing device 140 pairs are packed by the liquid modifier that storage device conveyance conduit 120 exports outward；It is outside when not needing storage device When exporting liquid modifier, control liquid collection portion 110 is at liquid collecting position, to remaining in storage device conveyance conduit 120 Liquid modifier be collected.

As shown in Figure 1, the production system of modifying agent further includes heat compensation system 180, heat compensation system 180 includes heat Source portion 181 and heat compensation pipe 182, heat source portion 181 have circulatory mediator for generating and storing high-temperature medium, heat source portion 181 Outlet and circulatory mediator refluxing opening, the first end and circulatory mediator outlet of heat compensation pipe 182, heat compensation pipe 182 Second end is connected to circulatory mediator refluxing opening, and in conveying device 20, mixing arrangement 10, storage device 80 and conveyance conduit extremely Heat compensation pipe 182 is provided on one few.

In this application, by the way that heat compensation system 180 is arranged, to conveying device 20, mixing arrangement 10, storage device 80 Or at least one of conveyance conduit is heated or is kept the temperature, so that conveying dress can be effectively improved when environment temperature is lower Set 20, mixing arrangement 10, in storage device 80 or conveyance conduit modifying agent mobility, to promote the production system of modifying agent Production efficiency, promote the practicability of the production system of modifying agent.

Wherein, conveyance conduit includes flexible steel in flat section tubing 30, storage device conveyance conduit 120, the first modifying agent conveyance conduit 190 and the second modifying agent conveyance conduit 200.In alternative embodiment shown in fig. 1,180 pairs of parts first of heat compensation system Modifying agent conveyance conduit 190 is heated or is kept the temperature.

In the embodiment not shown of the application one, conveyance conduit includes the inner tube and outer tube being mutually arranged, inner tube and Heat compensation chamber is formed between outer tube, heat compensation is intracavitary to be provided with heat compensation pipe 182, and heat compensation pipe 182 is along defeated It send the length direction of pipeline to coil to extend.In this way, the setting of heat compensation pipe 182 is intracavitary in heat compensation, it can prevent heat from mending It repays pipe 182 to be exposed to outside, to avoid heat compensation pipe 182 from being touched by other objects and cause heat compensation pipe 182 damaged, together When, high-temperature medium when heat compensation pipe 182 can be effectively prevent breakage occur in heat compensation pipe 182 leaks to external environment Middle scald personnel or pollution environment.

Optionally, conveying device 20 is extruder, and coiling is provided with heat compensation pipe 182 on the shell of extruder.In this way, Extruder can be heated or be kept the temperature.

In the embodiment not shown of the application one, mixing arrangement 10 is reactor tank, and reactor tank has mixing chamber 11, reactor tank Outside wall surface and/or mixing chamber 11 in be provided with heat compensation pipe 182.In such manner, it is possible to which mixing arrangement 10 is heated or is protected Temperature.

Optionally, heat compensation pipe 182 coils along the vertical direction is arranged in mixing chamber 11.The disk of heat compensation pipe 182 More around quantity, the effect that mixing arrangement 10 is heated or kept the temperature is better, and the temperature of mixing arrangement 10 can be made quickly to mention It rises.

As shown in Figure 1, being provided with heat compensation pipe 182 in the outside wall surface and/or storage chamber 81 of storage device 80.In this way, Storage device can be heated or be kept the temperature.

In the embodiment not shown of the application one, heat compensation pipe 182 coils along the vertical direction to be arranged in storage chamber 81. The coiling quantity of heat compensation pipe 182 is more, and the effect for being heated or being kept the temperature to storage device is better.

Optionally, high-temperature medium is that temperature is more than or equal to 120 DEG C and is less than or equal to 150 DEG C of steam.

In the embodiment not shown of the application one, heat source portion 181 is the boiler for generating steam.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

Unless specifically stated otherwise, positioned opposite, the digital table of the component and step that otherwise illustrate in these embodiments Up to the unlimited the scope of the utility model processed of formula and numerical value.Simultaneously, it should be appreciated that for ease of description, each shown in attached drawing The size of a part is not to draw according to actual proportionate relationship.For skill known to person of ordinary skill in the relevant Art, method and apparatus may be not discussed in detail, but in the appropriate case, and the technology, method and apparatus should be considered as awarding Weigh part of specification.In shown here and discussion all examples, any occurrence should be construed as merely example Property, not as limitation.Therefore, the other examples of exemplary embodiment can have different values.It should also be noted that similar Label and letter similar terms are indicated in following attached drawing, therefore, once be defined in a certain Xiang Yi attached drawing, then with In attached drawing afterwards do not need that it is further discussed.

In the description of the present invention, it should be understood that the noun of locality such as " front, rear, top, and bottom, left and right ", " laterally, Vertically, vertically, it is horizontal " and " pushing up, bottom " etc. indicated by orientation or positional relationship be normally based on orientation or position shown in the drawings Relationship is set, is merely for convenience of describing the present invention and simplifying the description, in the absence of explanation to the contrary, these nouns of locality Do not indicate that and imply that signified device or element must have a particular orientation or be constructed and operated in a specific orientation, because This should not be understood as the limitation to scope of protection of the utility model；The noun of locality " inside and outside " refers to the wheel relative to each component itself Wide is inside and outside.

For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ", " ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure Except different direction in use or operation.For example, being described as if the device in attached drawing is squeezed " in other devices It will be positioned as " under other devices or construction after part or construction top " or the device of " on other devices or construction " Side " or " under other devices or construction ".Thus, exemplary term " ... top " may include " ... top " and " in ... lower section " two kinds of orientation.The device can also be positioned with other different modes and (is rotated by 90 ° or in other orientation), and And respective explanations are made to the opposite description in space used herein above.

In addition, it should be noted that, limiting components using the words such as " first ", " second ", it is only for be convenient for Corresponding components are distinguished, do not have Stated otherwise such as, there is no particular meanings for above-mentioned word, therefore should not be understood as to this The limitation of utility model protection range.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, work, device, component and/or their combination.

It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein can be in addition to illustrating herein Or the sequence other than those of description is implemented.

Claims (10)

1. a kind of production system of modifying agent, for a variety of raw material mixtures to be formed the modifying agent, which is characterized in that packet It includes:

Mixing arrangement (10), the feed end that the mixing arrangement (10) has mixing chamber (11) and is connected to the mixing chamber (11) Mouthful (12), and the charging port (12) relative to the mixing arrangement (10) top close to the bottom end of the mixing arrangement (10) Setting.

2. production system according to claim 1, which is characterized in that the mixing arrangement (10) also has feed inlet (13), the feed inlet (13) is located at the top of the mixing arrangement (10), and the feed inlet (13) is used for the part original Material is added to the mixing chamber (11).

3. production system according to claim 2, which is characterized in that be added by the feed inlet (13) to the mixing Raw material in chamber (11) are cosolvent.

4. production system according to claim 1, which is characterized in that the production system of the modifying agent further includes conveying dress It sets (20), the output end of the conveying device (20) is connect with the charging port (12), for the part raw material are defeated It send to the mixing chamber (11).

5. production system according to claim 4, which is characterized in that sent by the conveying device (20) transport described mixed The raw material closed in chamber (11) include reclaimed rubber, additive and rubber cross auxiliary agent.

6. production system according to claim 4, which is characterized in that the output end of the conveying device (20) is mixed with described It attaches together and is connected between the charging port (12) for setting (10) by flexible steel in flat section tubing (30).

7. production system according to claim 1, which is characterized in that the mixing arrangement (10) also has to be mixed with described The discharge end (14) of chamber (11) connection, the production system further includes colloid mill (60), and the colloid mill (60) is mixed with described Attach together discharge end (14) connection for setting (10).

8. production system according to claim 7, which is characterized in that the production system further includes delivery pump (70), institute Delivery pump (70) is stated to be set between the colloid mill (60) and the mixing arrangement (10), it will be in the mixing arrangement (10) The modifying agent that a variety of raw material mixtures are formed is delivered at the colloid mill (60).

9. production system according to claim 7, which is characterized in that the production system further includes storage device (80), The storage device (80) is connected to and is located at the downstream of the colloid mill (60) with the colloid mill (60).

10. production system according to claim 9, which is characterized in that the production system of the modifying agent further includes stirring It is provided with the agitating device (100) on device (100), the mixing arrangement (10) and/or the storage device (80), it is described Agitating device (100) includes sequentially connected driving element, rotation axis (101) and agitating paddle (102), wherein the agitating paddle It (102) is multiple, axially spaced-apart setting of multiple agitating paddles (102) along the rotation axis (101).