CN109331764A - Polyacrylate reaction kettle with diverter function - Google Patents

Abstract

Polyacrylate reaction kettle with diverter function of the invention seals glue bucket and agitating device up for safekeeping by setting pedestal, reaction kettle device, the first part flow arrangement, the second part flow arrangement, confluence component, polyacrylate.In actual application process, after reaction kettle produces polyacrylate, polyacrylate is exported to output channel, due to the setting of the first part flow arrangement and the second part flow arrangement, is flowed into respectively from the first shunt conduit and the second shunt conduit from output channel outflow polyacrylate, achieve the purpose that shunting, then, bus dump is flowed to jointly from the first shunt conduit and the second shunt conduit again, completes convergence, and finally flow direction, which is sealed up for safekeeping to polyacrylate, seals glue bucket up for safekeeping.The above process can be effectively prevented polyacrylate blocking conveyance conduit due to the effect of shunting, sustainedly and stably seal glue bucket conveying polyacrylate up for safekeeping to polyacrylate.

Description

Polyacrylate reaction kettle with diverter function

Technical field

The present invention relates to chemical reaction device fields, react more particularly to a kind of polyacrylate with diverter function Kettle.

Background technique

The broad understanding of reaction kettle has the container physically or chemically reacted, is designed by the structure to container and is matched with parameter It sets, realizes the mixed function for heating, evaporation, cooling and the low high speed that technique requires.Reaction kettle be widely used in petroleum, chemical industry, Rubber, pesticide, dyestuff, medicine, food, for completing the pressure of the technical process such as vulcanization, nitrification, hydrogenation, hydrocarbonylation, polymerization, condensation Force container, such as reactor, reaction pot, decomposition pot, polymeric kettle etc., material generally has carbon manganese steel, stainless steel, zirconium, Ni-based, alloy And other composite materials.The broad understanding of reaction kettle has the rustless steel container physically or chemically reacted, according to different technique Requirement carries out the structure design and parameter configuration of container, and design condition, process, inspection and manufacture, examination are needed according to related Technical standard, to realize the mixture response function of heating, evaporation that technique requires, cooling and low high speed.Production must be pressed strictly According to the processing of corresponding standard, detection and trial operation.Stainless steel cauldron according to different production technology and operating condition etc. not to the utmost Identical, the design structure and parameter of reaction kettle are different, i.e. the structural style of reaction kettle is different, belong to nonstandard tankage.Instead Answering kettle is comprehensive reaction vessel, the design according to reaction condition to reaction kettle structure function and configuration attachment.From the charging-of beginning Reaction-discharging can complete pre-set reaction step with higher the degree of automation, in reaction process temperature, The important parameters such as pressure, mechanics control, reactant/product concentration carry out stringent regulation.Its structure is generally filled by autoclave body, transmission It sets, agitating device, heating device, cooling device, sealing device composition.Corresponding matched ancillary equipment: still, condenser, Water segregator, collecting tank, filter etc..

Currently, need to use reaction kettle in the production process of polyacrylate, the raw materials for production of polyacrylate are defeated It send into reaction kettle, operator sets the correlated response parameter of reaction kettle, is processed to raw materials for production, will produce Raw material processing becomes polyacrylate.Since polyacrylate is peptizing agent, there is certain adhesiveness, react and give birth in reaction kettle After having produced polyacrylate, need to convey polyacrylate to glue bucket, some manufacturing enterprises are in order to accelerate transfer efficiency, it will usually Biggish bore is arranged in the delivery outlet of reaction kettle, allows to disposably export the polyacrylate of big flow into glue bucket, But this is easy for causing a problem, and the polyacrylate of big flow is easy to be sticked in conveyance conduit during transportation, make At the blocking of conveyance conduit, the rate that above situation will lead to conveying polyacrylate is substantially reduced, and bigbore output is arranged Port have it is certainly possible cause rate to substantially reduce, influence the output of enterprise.Therefore, how to design prevents conveyance conduit from blocking , the reaction kettle of sustainable stable conveying polyacrylate be a technical problem that those skilled in the art need to solve.

Summary of the invention

The purpose of the present invention is overcoming shortcoming in the prior art, provide it is a kind of it is preventing that conveyance conduit from blocking, can The polyacrylate reaction kettle with diverter function of continual and steady conveying polyacrylate.

The purpose of the present invention is achieved through the following technical solutions:

A kind of polyacrylate reaction kettle with diverter function, comprising:

Pedestal；

Reaction kettle device, the reaction kettle device are set on the pedestal, and the reaction kettle device includes reaction kettle, branch Support component and output channel, the first end of the support component are set on the reaction kettle, the second end of the support component It is set on the pedestal, the input terminal of the output channel is connected to the discharge port of the reaction kettle；

First part flow arrangement, first part flow arrangement include the first shunt conduit, first flow valve assembly and the One caching bucket, the input terminal of first shunt conduit are connected to the output end of the output channel, first shunt conduit Output end be connected to the input terminal of the first flow valve assembly, the output end of the first flow valve assembly with The feeding inlet connection of the first caching bucket；

Second part flow arrangement, second part flow arrangement include the second shunt conduit, second flow valve assembly and the Two caching buckets, the input terminal of second shunt conduit are connected to the output end of the output channel, second shunt conduit Output end be connected to the input terminal of the second flow valve assembly, the output end of the second flow valve assembly with The feeding inlet connection of the second caching bucket；

Converge component, and the confluence component includes bus dump and electromagnetic pump, the first input end of the bus dump and The discharge port of the discharge port connection of the first caching bucket, the second input terminal of the bus dump and the second caching bucket connects Logical, the electromagnetic pump is set on the bus dump；

Polyacrylate seals glue bucket up for safekeeping, and the polyacrylate is sealed glue bucket up for safekeeping and is set on the pedestal, and described poly- Acrylate seals glue bucket position up for safekeeping in the underface of the output end of the bus dump；And

Agitating device, the agitating device are set on the reaction kettle.

In a wherein embodiment, the first flow valve assembly includes the first valve body, the first adjusting rotation The input terminal of axis, first baffle and the first in command, first valve body are connected to the output end of the output channel, and described first The output end of valve body is connected to the feeding inlet of the first caching bucket, offers first through hole on first valve body, and described the The first internal screw thread is provided on the inner sidewall of one through-hole, the part of the first adjusting rotation axis is screwed together in the first through hole Interior, the first baffle is connect with the first end of the first adjusting rotation axis, and the first in command and first adjusting turn The second end of moving axis connects.

In a wherein embodiment, multiple first are offered on the first in command and holds hole.

In a wherein embodiment, opened up on the first in command there are three first hold hole.

In a wherein embodiment, the second flow valve assembly includes the second valve body, the second adjusting rotation The input terminal of axis, second baffle and second handle, second valve body is connected to the output end of the output channel, and described second The output end of valve body is connected to the feeding inlet of the second caching bucket, offers the second through-hole on second valve body, and described the The second internal screw thread is provided on the inner sidewall of two through-holes, the part of the second adjusting rotation axis is screwed together in second through-hole Interior, the second baffle is connect with the first end of the second adjusting rotation axis, and the second handle and second adjusting turn The second end of moving axis connects.

In a wherein embodiment, multiple second are offered on the second handle and holds hole.

In a wherein embodiment, opened up on the second handle there are three second hold hole.

In a wherein embodiment, the support component includes supporting element and elastic component, and the first of the supporting element End is connect with the reaction kettle, and the second end of the supporting element is connect with the elastic component.

In a wherein embodiment, the elastic component is rubber parts.

In a wherein embodiment, multiple auxiliary heat dissipation slots are offered on the reaction kettle.

The present invention compared with the prior art the advantages of and have the beneficial effect that:

Polyacrylate reaction kettle with diverter function of the invention, by the way that pedestal, reaction kettle device, first point is arranged Stream device, the second part flow arrangement, confluence component, polyacrylate seal glue bucket and agitating device up for safekeeping.In actual application process, After reaction kettle produces polyacrylate, polyacrylate is exported to output channel, due to the first part flow arrangement and second point The setting for flowing device is flowed into respectively from the first shunt conduit and the second shunt conduit from output channel outflow polyacrylate, is reached To the purpose of shunting, then, then from the first shunt conduit and the second shunt conduit flows to bus dump jointly, complete convergence, most Flow direction, which is sealed up for safekeeping to polyacrylate, afterwards seals glue bucket up for safekeeping.The above process can be effectively prevented polyacrylic acid due to the effect of shunting Ester blocks conveyance conduit, sustainedly and stably seals glue bucket conveying polyacrylate up for safekeeping to polyacrylate.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural representation of the polyacrylate reaction kettle with diverter function in one embodiment of the present invention Figure；

Fig. 2 is the structural schematic diagram of the agitating device in one embodiment of the present invention；

Fig. 3 is the structural schematic diagram of the waste material secondary treatment component in one embodiment of the present invention；

Fig. 4 is the structural schematic diagram of the blanking tray in one embodiment of the present invention；

Fig. 5 is the structural schematic diagram of the protective case in one embodiment of the present invention；

Fig. 6 is the schematic diagram of internal structure of the protection component in one embodiment of the present invention；

Fig. 7 is the partial internal structure schematic diagram of the protection component in one embodiment of the present invention.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

Referring to Fig. 1, with diverter function polyacrylate reaction kettle 10 include pedestal 100, reaction kettle device 200, First part flow arrangement 300, the second part flow arrangement 400, confluence component 500, polyacrylate seal glue bucket 600 and agitating device up for safekeeping； Reaction kettle device 200 is set on pedestal 100, and reaction kettle device 200 includes reaction kettle 210, support component 220 and output channel 230, the first end of support component 220 is set on reaction kettle 210, and the second end of support component 220 is set on pedestal 100, The input terminal of output channel 230 is connected to the discharge port of reaction kettle 210；First part flow arrangement 300 includes the first shunt conduit 310, first flow valve assembly 320 and the first caching bucket 330, the input terminal and output channel 230 of the first shunt conduit 310 Output end connection, the output end of the first shunt conduit 310 is connected to the input terminal of first flow valve assembly 320, first The output end of Flow-rate adjustment valve module 320 is connected to the feeding inlet of the first caching bucket 330；Second part flow arrangement 400 includes second Shunt conduit 410, second flow valve assembly 420 and second caching bucket 430, the input terminal of the second shunt conduit 410 with it is defeated The output end connection of pipeline 230 out, the output end of the second shunt conduit 410 and the input terminal of second flow valve assembly 420 Connection, the output end of second flow valve assembly 420 are connected to the feeding inlet of the second caching bucket 430；Confluence component 500 include Bus dump 510 and electromagnetic pump 520, the first input end of bus dump 510 are connected to the discharge port of the first caching bucket 330, converge Second input terminal in flow tube road 510 is connected to the discharge port of the second caching bucket 430, and electromagnetic pump 520 is set to bus dump 510 On；Polyacrylate is sealed glue bucket 600 up for safekeeping and is set on pedestal 100, and polyacrylate seals glue bucket 600 up for safekeeping and is located at bus dump The underface of 510 output end；Agitating device is set on reaction kettle 210.In this way, working as reaction in actual application process After kettle 210 produces polyacrylate, polyacrylate is exported to output channel 230, due to the first part flow arrangement 300 and second The setting of part flow arrangement 400 is flowed out polyacrylate from output channel 230 and is shunted respectively from the first shunt conduit 310 and second Pipeline 410 flows into, and achievees the purpose that shunting, then, then from the first shunt conduit 310 and the second shunt conduit 410 flow direction jointly Bus dump 510 completes convergence, and finally flow direction, which is sealed up for safekeeping to polyacrylate, seals glue bucket 600 up for safekeeping.Work of the above process due to shunting With, can be effectively prevented polyacrylate blocking conveyance conduit, sustainedly and stably to polyacrylate seal up for safekeeping glue bucket 600 convey Polyacrylate.

Further, referring to Fig. 1, in one embodiment, first flow valve assembly 320 includes the first valve Body 321, first adjusts rotation axis, first baffle and the first in command 322, input terminal and the output channel 230 of the first valve body 321 Output end connection, the output end of the first valve body 321 are connected to the feeding inlet of the first caching bucket 330, offer on the first valve body 321 First through hole is provided with the first internal screw thread on the inner sidewall of first through hole, and it is logical that the part of the first adjusting rotation axis is screwed together in first In hole, first baffle is connect with the first end of the first adjusting rotation axis, the second end of the first in command 322 and the first adjusting rotation axis Connection.In this way, the first in command 322 is manually rotated clockwise, with first when needing to increase the feed flow of polyacrylate Handle 322 rotates clockwise, and the first in command 322 is mobile to the direction far from the first valve body 321, and first baffle stops less Polyacrylate, to increase the feed flow of polyacrylate；Similarly, when the feed flow for needing to reduce polyacrylate When, the first in command 322 is manually rotated counterclockwise, with rotating counterclockwise for the first in command 322, the first in command 322 is to far from the The direction of one valve body 321 is mobile, and first baffle stops more polyacrylate, to reduce the transport Stream of polyacrylate Amount.

Further, in one embodiment, multiple first are offered on the first in command 322 holds hole.In this way, multiple One offering for gripping hole rotates the first in command conducive to producers.Specifically, in one embodiment, on the first in command 322 First holds hole there are three opening up.

Further, referring to Fig. 1, in one embodiment, second flow valve assembly 420 includes the second valve Body 421, second adjusts rotation axis, second baffle and second handle 422, input terminal and the output channel 230 of the second valve body 421 Output end connection, the output end of the second valve body 421 are connected to the feeding inlet of the second caching bucket 430, offer on the second valve body 421 Second through-hole is provided with the second internal screw thread on the inner sidewall of the second through-hole, and it is logical that the part of the second adjusting rotation axis is screwed together in second In hole, second baffle is connect with the first end of the second adjusting rotation axis, the second end of second handle 422 and the second adjusting rotation axis Connection.In this way, second handle 422 is manually rotated clockwise, with second when needing to increase the feed flow of polyacrylate Handle 422 rotates clockwise, and second handle 422 is mobile to the direction far from the second valve body 421, and second baffle stops less Polyacrylate, to increase the feed flow of polyacrylate；Similarly, when the feed flow for needing to reduce polyacrylate When, second handle 422 is manually rotated counterclockwise, with rotating counterclockwise for second handle 422, second handle 422 is to far from the The direction of two valve bodies 421 is mobile, and second baffle stops more polyacrylate, to reduce the transport Stream of polyacrylate Amount.

Further in one embodiment, multiple second are offered on second handle 422 holds hole.In this way, multiple Two offering for gripping hole rotate second handle 422 conducive to producers.Specifically, in one embodiment, second handle 422 On open up there are three second hold hole.

Further, referring to Fig. 1, in one embodiment, support component 220 includes supporting element 221 and elasticity The first end of part, supporting element 221 is connect with reaction kettle 210, and the second end of supporting element 221 is connect with elastic component.In this way, supporting element 221 play the role of supporting reaction kettle 210；Elastic component plays the role of buffering, extends the service life of supporting element 221.Specifically Ground, in one embodiment, elastic component are rubber parts.

Further, in one embodiment, multiple auxiliary heat dissipation slots are offered on reaction kettle 210.In this way, multiple auxiliary Auxiliary heat dissipation is played the role of in opening up for radiating groove.

Polyacrylate reaction kettle with diverter function of the invention, by the way that pedestal, reaction kettle device, first point is arranged Stream device, the second part flow arrangement, confluence component, polyacrylate seal glue bucket and agitating device up for safekeeping.In actual application process, After reaction kettle produces polyacrylate, polyacrylate is exported to output channel, due to the first part flow arrangement and second point The setting for flowing device is flowed into respectively from the first shunt conduit and the second shunt conduit from output channel outflow polyacrylate, is reached To the purpose of shunting, then, then from the first shunt conduit and the second shunt conduit flows to bus dump jointly, complete convergence, most Flow direction, which is sealed up for safekeeping to polyacrylate, afterwards seals glue bucket up for safekeeping.The above process can be effectively prevented polyacrylic acid due to the effect of shunting Ester blocks conveyance conduit, sustainedly and stably seals glue bucket conveying polyacrylate up for safekeeping to polyacrylate.

It should be noted that in the production process of production polyacrylate, purity is more increased in order to obtain polypropylene Agitating device can be arranged in acid esters on reaction kettle, after setting the chemical reaction parameters of reaction kettle, in reaction kettle Polyacrylate is stirred, and allows raw materials for production under the process of stirring, generates the higher polyacrylate of purity. For existing agitating device, either polyacrylate or raw materials for production, adhesiveness is all relatively strong, exists in agitating device During stirring, agitating device gradually decreases mechanical strength because of long-term stirring, and agitating device is caused to damage, can not be normal It uses；In addition, function is more single for existing agitating device, agitating device is only capable of playing the role of stirring, except this with Outside, there is no what other functions, but since during producing polyacrylate, raw materials for production are easy in reaction kettle It is solidified on inner sidewall, forms block structure, cause a part of raw materials for production to have no idea to participate in chemical reaction, lead to poly- third The conversion ratio of olefin(e) acid ester is low；Furthermore if later period producers need to clean the inside of reaction kettle, the production of solidification is former Material is also not easy to dispose from the inner sidewall of reaction kettle, increases later period producers to the cleaning difficulty of reaction kettle.

Therefore, in order to which the overall mechanical strength, the function of increase agitating device and later period that solve above-mentioned agitating device mention Cleaning efficiency of the high producers to reaction kettle.Referring to Fig. 2, in one embodiment, the agitating device 700 includes stirring Driver 710 stirs external member 720 and strikes off external member 730, and the stirring driver 710 is set on the reaction kettle, described to stir It mixes external member 720 to be set in the reaction kettle, and the stirring external member 720 and the drive shaft of the stirring driver 710 connect It connects, the stirring external member 720 includes rotating bar 721 and multiple mixing components 722, and the rotating bar 721 drives with the stirring The driving axis connection of device 710, multiple mixing components 722 are respectively arranged in the rotating bar 721, in a stirring In component 722, the mixing component 722 includes mounting rod 7221, the first stirring parts 7222 and the second stirring parts 7223, the peace Dress bar 7221 is set in the rotating bar 721, and first stirring parts 7222 are rotatably dispose in the of the mounting rod 7221 On one end, first stirring parts 7222 include the first rotation section, multiple first stirring flabellums 72221 and multiple first reinforcing ribs 72222, the end of first rotation section is rotatably dispose in the first end of the mounting rod 7221, multiple first stirrings Flabellum 72221 is respectively arranged on first rotation section, and multiple first reinforcing ribs 7222 are arranged in a one-to-one correspondence in adjacent Between two the first stirring flabellums 72221, second stirring parts 7223 are rotatably dispose in the of the mounting rod 7221 On two ends, second stirring parts 7223 include the second rotation section, multiple second stirring flabellums 72231 and multiple second reinforcing ribs 72232, the end of second rotation section is rotatably dispose in the second end of the mounting rod 7221, multiple second stirrings Flabellum 72231 is respectively arranged on second rotation section, and multiple second reinforcing ribs 72232 are arranged in a one-to-one correspondence in adjacent Between two the second stirring flabellums 72231, the external member 730 of striking off is set in the rotating bar 721, described to strike off set Part 730 includes multiple scraper assemblies 731, and multiple scraper assemblies 731 are respectively arranged in the rotating bar 721, at one In the scraper assembly 731, the scraper assembly 731 strikes off part 7312 and second including carrier bar 7311, first and strikes off part 7313, the carrier bar 7311 is set in the first end of the carrier bar 7311 and offers the first bit-avoiding slot, the carrier bar The second bit-avoiding slot is offered in 7311 second end, described first, which strikes off part 7312, is rotatably dispose in first bit-avoiding slot, Described first, which strikes off part 7312, includes the first rotating part and multiple first scrapers 73121, and first rotating part is rotatably dispose in In first bit-avoiding slot, multiple first scrapers 73121 are respectively arranged on first rotating part, and described second strikes off part 7313 are rotatably dispose in second bit-avoiding slot, and described second, which strikes off part 7313, includes the second rotating part and multiple second scrapers 73131, second rotating part is rotatably dispose in second bit-avoiding slot, and multiple second scrapers 73131 are respectively set In on second rotating part.

The concrete operating principle of agitating device 700 is described in detail below:

When needing to be stirred raw materials for production, start agitating device 700, stirring 710 output driving of driver rotation Rotating bar 721, stirring driver 710 drive rotating bar 721 to rotate, with rotating bar 721, stirring in rotating bar 721 are arranged in It mixes external member 720 and is also followed by rotation, when the first stirring parts 7222 are physically contacted with raw materials for production, multiple first stirring fans Leaf 72221 can relatively rotate the rotation of bar 721, complete stirring operation to raw materials for production, one by one due to multiple first reinforcing ribs 72222 It is correspondingly arranged between two neighboring first stirring flabellum 72221, also that is, each adjacent two first stirs between flabellum 72221 Just be provided with first reinforcing rib 72222, and between two neighboring first stirring flabellum 72221 respectively with the first reinforcing rib 72222 connections, the setting of the first reinforcing rib 72222 can be improved the overall mechanical strength of the first stirring parts 7222, effectively prevent The first stirring parts 7222 are stopped in the case where being stirred for a long time to raw materials for production, the whole machinery of the first stirring parts 7222 is strong Degree decline, causes the first stirring parts 7222 to be damaged；At the same time, while rotating bar 721, multiple scraper assemblies 731 are opposite Rotating bar 721 rotates, and when scraper assembly 731, which relatively rotates bar 721, to be rotated, is arranged on carrier bar 7311 on first rotating part Multiple first scrapers 7312 be physically contacted with the raw materials for production being set on reaction kettle inner sidewall, the first scraper 7312 will The raw materials for production of solidification strike off from the inner sidewall of reaction kettle, and excessive raw materials for production is prevented to be set in the inside of reaction kettle On wall, cause the conversion ratio of polyacrylate relatively low, can reduce later period producers and reaction kettle is cleaned and bear, greatly improve The cleaning efficiency and cleaning quality of producers.

It should also be noted that, the second stirring parts 7223 are consistent with the working principle of the first stirring parts 7222, no longer to the The concrete operating principle of two stirring parts 7223 is explained in detail, with reference to the working principle of the first stirring parts 7222；Second It strikes off part 7313 and strikes off that the working principle of part 7312 is consistent with first, the working principle for no longer striking off part 7313 to second carries out detailed Thin to explain, the working principle of part 7313 is struck off in reference second.

It should also be noted that, striking off part 7312 and second and striking off part 7313 to being set on reaction kettle inner sidewall when first Raw materials for production strike off after, blocky raw materials for production are also possible to can be because be adhered on the inner sidewall of reaction kettle again.Therefore, in order to It prevents the blocky raw materials for production struck off to be adhered on the inner sidewall of reaction kettle again, also referring to Fig. 3 and Fig. 4, implements one In mode, the agitating device 700 further includes waste material secondary treatment component 740, and the waste material secondary treatment component 740 is set to In the rotating bar 721, the waste material secondary treatment component 740 includes blanking lid 741 and blanking tray 742, the blanking lid Body 741 is set in the rotating bar 721, and multiple blanking ports 7411, the blanking tray are offered on the blanking lid 741 742 are set on the blanking lid 741, and multiple guiding grooves 7421, the blanking tray 742 are offered in the blanking tray 742 It is inside also provided with discharge hole 7422, each guiding groove 7421 is connected to the discharge hole respectively.

The concrete operating principle of waste material secondary treatment component 740 is described in detail below:

Part is struck off and after second strikes off part and strike off to the raw materials for production being set on reaction kettle inner sidewall when first, it is block-like Raw materials for production can be fallen into from one of blanking port 7411 into blanking tray 742, and then be fallen into some guiding groove 7421, when It needs to start reaction kettle, reaction kettle increases its internal temperature, will fall in guiding groove 7421 to when striking off waste material and being discharged Blocky raw materials for production heating and melting, the raw materials for production after thawing become liquid and slowly flow to discharge hole from guiding groove 7421, outward Discharge, and then the raw materials for production that reaction kettle inner sidewall has been solidified are discharged.

It should also be noted that, in one embodiment, the blanking lid 741 and the blanking tray 742 are integrated into Type structure, integrally formed structure design can increase the overall mechanical strength of waste material secondary treatment component 740, extend waste material two The service life of secondary processing component 740.

In addition it is also necessary to explanation, since reaction kettle is chemical vessel, in the actual use process, there are more Changing factor, for example, when reaction kettle because explosion time, the life security of the producers near reaction kettle occur for uncontrollable factor It is easy to be on the hazard, the reaction kettle fragment burst is extremely easy to hurt the personal safety of producers；Furthermore though reaction kettle So when heated, it needs to rise to certain temperature, but be equally also required to suitably radiate to reaction kettle, prevents reaction kettle mistake High temperature and cause uncontrollable accident；Furthermore reaction kettle is it may also be necessary to prevent fires to it, at antistatic and waterproof Reason prevents reaction kettle from problem occurs in more severe condition.

Therefore, to solve the above-mentioned problems, in one embodiment, described to have also referring to Fig. 5, Fig. 6 and Fig. 7 The polyacrylate reaction kettle of diverter function further includes protective case 800, and the protective case 800 is sheathed on the reaction kettle, institute Stating protective case 800 includes body 810, magnetic absorbing mass 820, sheet metal and protection component 830, and the body 810 is sheathed on described anti- It answers on kettle, the side of the body 810 offers accommodation groove, and the magnetic absorbing mass 820 is set to the other side of the body 810 On, the sheet metal is set to the bottom of the accommodation groove, and the protection component 830 is set in the body 810, the guarantor Protecting assembly 830 includes the first fire prevention portion 831, isolation part 832, the second fire prevention portion 833, waterproof portion 834, buffer part 835, radiating part 836, the first heat-conducting part 837, the second heat-conducting part 838 and antistatic portion 839, first fire prevention portion 831, the isolation part 832, Second fire prevention portion 833, the waterproof portion 834, the buffer part 835, the radiating part 836, first heat-conducting part 837, second heat-conducting part 838 and the antistatic portion 839 stack gradually setting, are provided in the buffer part 835 multiple Buffer air bag 8351 offers heat-dissipating cavity 8361 and multiple thermal vias 8362, multiple heat dissipations in the radiating part 836 Through-hole 8362 is connected to the heat-dissipating cavity 8361, and the heat-dissipating cavity 8361 closes in the one side wall of the buffer part 835 It is provided with thermal insulation layer, the heat-dissipating cavity 8361, which closes in the one side wall of first heat-conducting part 837, is provided with lower thermal insulation layer, And the lower thermal insulation layer is located at the medium position that the heat-dissipating cavity 8361 closes on the one side wall of first heat-conducting part 837 Place, offers multiple thermally conductive through-holes 8371 in first heat-conducting part 837, multiple thermally conductive through-holes 8371 with the heat dissipation Cavity 8361 is connected to.

The working principle of protective case 800 is described in detail below:

When protective case 800 is sheathed on reaction kettle by producers, magnetic absorbing mass 820 is directed at accommodation groove, magnetic absorbing mass 820 Sheet metal is sucked by magnetic attraction, and then 800 stabilizer of protective case is set on reaction kettle.Above-mentioned mounting means is simple, and with When protective case 800 can be replaced and be dismantled.Fireproof is played the role of in first fire prevention portion 831 and the second fire prevention portion 833, It should be noted that when fire occurs for the environment locating for the reaction kettle, when fire spreading to isolation part 832, isolation part 832 can be by Heat is melted, and falls off and the isolation part 832 that catches fire can fall off from the second fire prevention portion 833, the intensity of a fire is hindered further to spread；Waterproof portion 834 Play the role of waterproof；Buffer part 835 plays buffer function, and when explosion time occurs for reaction kettle, the reaction kettle fragment burst can be with Strike in buffer part 835, the multiple buffer air bags 8351 being arranged in buffer part 835 play the role of buffering, hinder fried The impact force of the reaction kettle fragment split reduces the injury to producers；When needing to radiate to reaction kettle, reaction kettle Heat can be slowly conducted from antistatic portion to the second heat-conducting part 838 and the first heat-conducting part 837, it should be noted that when heat passes It is directed at the first heat-conducting part 837, heat can enter in heat-dissipating cavity 8361 from thermally conductive through-hole 8371, final 8362 row of thermal vias Out, the heat dissipation to reaction kettle is completed；Play the role of antistatic in antistatic portion 839.

It should also be noted that, the heat-dissipating cavity 8361 close in the one side wall of the buffer part 835 be provided with every Thermosphere, due to being provided with multiple buffer air bags 8351 in buffer part 835, air bag easily expands when heated, in order to prevent above-mentioned feelings The generation of condition, the heat-dissipating cavity 8361, which closes in the one side wall of the buffer part 835, is provided with thermal insulation layer, and heat can conduct Into buffer part 835, multiple 8351 expanded by heating of buffer air bag are prevented.

It is provided with it should also be noted that, the heat-dissipating cavity 8361 closes in the one side wall of first heat-conducting part 837 Lower thermal insulation layer, and the lower thermal insulation layer is located at the one side wall that the heat-dissipating cavity 8361 closes on first heat-conducting part 837 At medium position, when heat is conducted from thermally conductive through-hole 8371 to radiating part 836, since lower thermal insulation layer is located at the heat-dissipating cavity 8361 close at the medium position of the one side wall of first heat-conducting part 837, and heat can be from the right and left slowly to heat-dissipating cavity Side can be conducted through the heat come at the first time since thermal vias 8362 is at lateral location by 8361 both sides conduction Discharge, achievees the effect that rapid cooling.

Only several embodiments of the present invention are expressed for embodiment described above, and the description thereof is more specific and detailed, but It cannot be construed as a limitation to the scope of the present invention.It should be pointed out that for the ordinary skill people of this field For member, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to of the invention Protection scope.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of polyacrylate reaction kettle with diverter function characterized by comprising

Pedestal；

Reaction kettle device, the reaction kettle device are set on the pedestal, and the reaction kettle device includes reaction kettle, support group Part and output channel, the first end of the support component are set on the reaction kettle, the second end setting of the support component In on the pedestal, the input terminal of the output channel is connected to the discharge port of the reaction kettle；

First part flow arrangement, first part flow arrangement include that the first shunt conduit, first flow valve assembly and first are slow Deposit bucket, the input terminal of first shunt conduit is connected to the output end of the output channel, first shunt conduit it is defeated Outlet is connected to the input terminal of the first flow valve assembly, the output end of the first flow valve assembly with it is described The feeding inlet connection of first caching bucket；

Second part flow arrangement, second part flow arrangement include that the second shunt conduit, second flow valve assembly and second are slow Deposit bucket, the input terminal of second shunt conduit is connected to the output end of the output channel, second shunt conduit it is defeated Outlet is connected to the input terminal of the second flow valve assembly, the output end of the second flow valve assembly with it is described The feeding inlet connection of second caching bucket；

Converge component, and the confluence component includes bus dump and electromagnetic pump, the first input end of the bus dump with it is described The discharge port connection of first caching bucket, the second input terminal of the bus dump are connected to the discharge port of the second caching bucket, The electromagnetic pump is set on the bus dump；

Polyacrylate seals glue bucket up for safekeeping, and the polyacrylate is sealed glue bucket up for safekeeping and is set on the pedestal, and the polypropylene Acid esters seals glue bucket position up for safekeeping in the underface of the output end of the bus dump；And

Agitating device, the agitating device are set on the reaction kettle.

2. the polyacrylate reaction kettle according to claim 1 with diverter function, which is characterized in that described first-class Adjustable valve component includes the first valve body, the first adjusting rotation axis, first baffle and the first in command, the input of first valve body End is connected to the output end of the output channel, and the feeding inlet of the output end of first valve body and the first caching bucket connects It is logical, first through hole is offered on first valve body, is provided with the first internal screw thread on the inner sidewall of the first through hole, described the The part of one adjusting rotation axis is screwed together in the first through hole, and the first baffle and described first adjusts the first of rotation axis End connection, the first in command connect with the second end of the first adjusting rotation axis.

3. the polyacrylate reaction kettle according to claim 2 with diverter function, which is characterized in that the first Multiple first are offered on hand holds hole.

4. the polyacrylate reaction kettle according to claim 3 with diverter function, which is characterized in that the first First holds hole there are three opening up on hand.

5. the polyacrylate reaction kettle according to claim 1 with diverter function, which is characterized in that the second Adjustable valve component includes the second valve body, the second adjusting rotation axis, second baffle and second handle, the input of second valve body End is connected to the output end of the output channel, and the feeding inlet of the output end of second valve body and the second caching bucket connects It is logical, the second through-hole is offered on second valve body, is provided with the second internal screw thread on the inner sidewall of second through-hole, described the The part of two adjusting rotation axis is screwed together in second through-hole, and the second baffle and described second adjusts the first of rotation axis End connection, the second handle are connect with the second end of the second adjusting rotation axis.

6. the polyacrylate reaction kettle according to claim 5 with diverter function, which is characterized in that described second Multiple second are offered on hand holds hole.

7. the polyacrylate reaction kettle according to claim 6 with diverter function, which is characterized in that described second Second holds hole there are three opening up on hand.

8. the polyacrylate reaction kettle according to claim 1 with diverter function, which is characterized in that the support group Part includes supporting element and elastic component, and the first end of the supporting element is connect with the reaction kettle, the second end of the supporting element with The elastic component connection.

9. the polyacrylate reaction kettle according to claim 8 with diverter function, which is characterized in that the elastic component For rubber parts.

10. the polyacrylate reaction kettle according to claim 1 with diverter function, which is characterized in that the reaction Multiple auxiliary heat dissipation slots are offered on kettle.