CN107790055A - Heat cure furane resins compare production system surely - Google Patents

Abstract

The present invention relates to heat cure furane resins to compare production system surely, including mixing bunker, actuating unit and mixed organization, mixed organization is arranged at the inside of mixing bunker, and it includes major ingredient output precision and auxiliary material feeder assembly, and major ingredient output precision includes major ingredient buffering chamber, pressurization part and stirring diverging portion；After the pressurized portion's supercharging of major ingredient inside major ingredient buffering chamber, then output is dissipated after the stirring of agitated diverging portion, the major ingredient unit of multiple umbrellas is formed in the outside of major ingredient buffering chamber；After the configured multiple jets on auxiliary material feeder assembly of auxiliary material spray, into major ingredient unit；While being determined respectively by major ingredient output precision and auxiliary material feeder assembly progress major ingredient with auxiliary material than output, by being mixed after multiple stirring diverging portions progress major ingredient stirring outputs in a manner of coating with auxiliary material, it is low to solve production efficiency existing for prior art, matches coarse technical problem.

Description

Heat cure furane resins compare production system surely

Technical field

The present invention relates to resins synthesis production field, more particularly to a kind of heat cure furane resins to compare production system surely.

Background technology

Furane resins refer to the general name for making the resinae of raw material production with the furfuryl alcohol with furan nucleus and furfural, have and protrude Corrosion resistance, heat resistance and its raw material sources extensively, simple production process the advantages that, cause the attention of people.It is wide at present It is general to be applied to metallurgical casting industry, in moulding, such as the production of many auto parts machineries, water heating bathroom, tire-mold, using After furan resin-sand art shapes, good economic effect is obtained.And generally require to use mixing arrangement during furane resins production, After different material proportionally need to being added into tank body during use, then it is mixed by agitating device, but current mixture manufacturing Apparatus structure is simple, and a certain region dropped down onto in tank body is often concentrated after adding for raw material, it is necessary to which long agitation can just make it mixed Close uniform.And single stirrer paddle is often set in tank body, rotating vortex is easily caused during use, influences mixing effect.

Chinese Patent Application No. is：201720224085.0 disclosed a kind of furane resins production reactor, bag Include tank body, agitating shaft is set in tank body, the riser being from top to bottom sequentially distributed, the first agitating device, the are provided with agitating shaft Two agitating devices, charge door and filling opening are provided with tank body, charge door and filling opening bottom are provided with and extend to tank inner chamber The inclination supporting plate at middle part, riser, which is arranged on, to be tilted below supporting plate, and the first agitating device includes being arranged on the vertical rod of bottom of the riser, stands Bar is provided with propeller blade by several connecting plates and stirring axis connection in vertical rod, the second agitating device stirs for anchor formula Device, the first agitating device are extended in the cavity that the second agitating device surrounds；It is provided with riser, connecting plate and inclination supporting plate Through hole.

Above-mentioned technical proposal carries out material dispersion by portrait and the first agitating device, then through the first agitating device and second Agitating device carries out diversified stirring to compound, so as to avoid the appearance of vortex；But its carry out material dispersion be will be a large amount of Different material it is random break up, so as to be difficult to ensure that the various pieces ratio uniform of mixture, therefore it is in whipping process In need also exist for longer mixing time to realize the well mixed of material, while it is mixed into time longer discontinuity and mixed Close, therefore, above-mentioned technical proposal production efficiency is low, and proportioning is coarse.

The content of the invention

The purpose of the present invention is in view of the deficiencies of the prior art, there is provided a kind of heat cure furane resins are fixed than production system System, while being determined respectively by major ingredient output precision and auxiliary material feeder assembly progress major ingredient with auxiliary material than output, by multiple stirrings Diverging portion is mixed after carrying out major ingredient stirring output in a manner of coating with auxiliary material, and production efficiency existing for solution prior art is low, Match coarse technical problem.

In order to solve the above technical problems, the present invention provides following technical scheme：

Heat cure furane resins are fixed than production system, including mixing bunker and actuating unit, in addition to：

Mixed organization, the mixed organization are arranged at the inside of the mixing bunker, and it includes major ingredient output precision and auxiliary Expect feeder assembly, the major ingredient output precision include major ingredient buffering chamber, multiple pressurization parts for being arranged on the major ingredient buffering chamber and It is respectively arranged at the stirring diverging portion of the pressurization part side；

Dissipated after the pressurized portion's supercharging of major ingredient inside the major ingredient buffering chamber, then after the stirring of agitated diverging portion defeated Go out, the major ingredient unit of multiple umbrellas is formed in the outside of the major ingredient buffering chamber；Auxiliary material is configured in the auxiliary material feeder assembly On multiple jets spray after, into the major ingredient unit.

Wherein, the major ingredient buffering chamber, which rotates, is set and is connected with the actuating unit, and the pressurization part is uniformly fixed It is arranged on the inwall of the major ingredient buffering chamber, while the major ingredient buffering chamber rotates progress major ingredient stir process, in described The side of pressurization part forms pressor areas.

Wherein, the stirring diverging portion includes the multiple delivery outlets being uniformly opened on the major ingredient buffering chamber outer circumference surface And the agitating paddle being arranged in the delivery outlet is rotated, the delivery outlet is located in the pressor areas.

In addition, the pressurization part is the arc plate structure vertically set, and its cambered surface bearing of trend and the master Expect that the rotation direction of buffering chamber is identical, the agitating paddle is set for propeller arrangement.

As an improvement, the major ingredient output precision also includes being fixedly installed in the mixing bunker and the major ingredient buffering chamber The baffle plate that is equipped with of outer circumference surface sealing, the through hole with the intermittent communicated setting of the delivery outlet is offered on the baffle plate, should Through hole is correspondingly arranged with the jet, forms preliminary blending space between the two.

As an improvement, the auxiliary material feeder assembly is coaxially disposed with major ingredient output precision, and the auxiliary material feeder assembly is located at The outside of major ingredient output precision, it includes auxiliary material temporary storing bin and rotates the multiple feedings being arranged inside the auxiliary material temporary storing bin Portion, the feeding portion are driven by the actuating unit and are opened in described with the major ingredient buffering chamber run-in synchronism, the jet On the madial wall of auxiliary material temporary storing bin.

As an improvement, also include being arranged at the mixer in the mixing bunker and below the major ingredient output precision Structure, the rabbling mechanism include the compression unit of fixed setting, the catalyst storage silo being equipped with the compression unit and with the master The mixing component that material buffering chamber is fixedly connected.

Wherein, the compression unit is horizontally disposed piston dish structure, and the catalyst storage silo is opening up and can The cylinder barrel structure moved up and down, the catalyst storage silo are deposited including being arranged at multiple boss of its bottom, being opened in catalyst Multiple spouts on warehouse outer circumference surface and the return spring being arranged between the catalyst storage silo and compression unit, it is described convex Platform, spout and jet are located in same perpendicular.

In addition, the mixing component is set for opening up umbrella-shaped structure, its outer circumference surface is interior with the mixing bunker Wall is equipped with, the mixing component include be arranged on surface multiple collecting boards, with the boss discontinuous connection set and Driving wheel that the catalyst storage silo is moved upwards and the blanking port for being opened in its center, the collecting board is promoted to be Arc is set and its bearing of trend is identical with the rotation direction of mixing component.

Beneficial effects of the present invention：

(1) major ingredient buffering chamber in rotation process, is entered by being fixedly installed on its internal multiple pressurization part in the present invention Output forms the major ingredient unit of umbrella after the stirring of stirring diverging portion after the pressurized of row major ingredient, and auxiliary material is after jet sprays Into in main flow unit, major ingredient is mixed in a manner of coating with auxiliary material；The pressurization part is uniformly fixedly installed on the major ingredient On the inwall of buffering chamber, the uniform rotation of major ingredient buffering chamber forms the pressor areas with constant pressure, the master sprayed through delivery outlet Doses is constant, with reference to the auxiliary material feeding portion with major ingredient buffering chamber run-in synchronism, forms major ingredient and is mixed with the fixed ratio of auxiliary material, in addition institute Delivery outlet and jet is stated to be circumference respectively and be correspondingly arranged, therefore, the present invention formed in operation process continuous major ingredient with The fixed ratio mixing of auxiliary material, production efficiency existing for solution prior art is low, matches coarse technical problem.

(2) rabbling mechanism includes compression unit, the catalyst being equipped with the compression unit of fixed setting in the present invention The mixing component of storage silo and umbrella-shaped structure, major ingredient storage silo drives mixing component to rotate while rotating, by stirring group Interruption promotes catalyst storage silo to move up during driving wheel on part moves in a circle, and compressed portion deposits with catalyst The cooperation of warehouse mixes quantitative catalyst with certain proportion with the main and supplementary materials mixture in dropping process, meanwhile, by stirring Component drives mixed material to rotate mixing after carrying out mixed material undertaking with rotating manner, after by collecting board, mixed material is collected Output, while avoiding material stirring and mixedly appear vortex, the different mixtures material on mixing component is concentrated into mixing, Implementation phase mixes, and further improves each Material and article holding frame mixing match uniformity of the present invention；

In summary, the present invention has the advantages that simple in construction, proportion speed, production efficiency are high.

Brief description of the drawings

For the technical scheme of the clearer explanation embodiment of the present invention, required use in being described below to embodiment Accompanying drawing be briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for ability For the those of ordinary skill in domain, on the premise of not paying creative work, it is attached other can also to be obtained according to these accompanying drawings Figure.

Fig. 1 is fault structure schematic diagram of the present invention；

Fig. 2 is cross section structure diagram of the present invention；

Fig. 3 is enlarged diagram at A in Fig. 2；

Fig. 4 is B-B direction schematic diagrams in Fig. 2；

Fig. 5 is feeding portion overall structure diagram；

Fig. 6 is feeding portion front view；

Fig. 7 is rabbling mechanism close-up schematic view；

Fig. 8 is mixing component top view.

Embodiment

The technical scheme in the embodiment of the present invention is clearly and completely illustrated below in conjunction with the accompanying drawings.

Embodiment one

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

As shown in Fig. 1,2,3 and 4, heat cure furane resins are fixed than production system, including mixing bunker 1 and actuating unit 2, go back Including：

Mixed organization 3, the mixed organization 3 are arranged at the inside of the mixing bunker 1, it include major ingredient output precision 31 with And auxiliary material feeder assembly 32, the major ingredient output precision 31 include major ingredient buffering chamber 313, are arranged on the major ingredient buffering chamber 313 Multiple pressurization parts 311 and be respectively arranged at the stirring diverging portion 312 of the side of pressurization part 311, in major ingredient buffering chamber 313 After multiple pressurization parts 311 of the major ingredient in portion through being uniformly arranged carry out partial Pressure, after agitated diverging portion 312 is tentatively stirred Diverging output；In the present embodiment, the quantity of pressurization part 311 is three, and it is only that one kind in the present embodiment is preferable to carry out Mode；

After the pressurized portion 311 of major ingredient inside the major ingredient buffering chamber 313 is pressurized, then agitated diverging portion 312 is stirred Output is dissipated after mixing, the major ingredient unit 310 of multiple umbrellas is formed in the outside of the major ingredient buffering chamber 313；Auxiliary material it is configured in After multiple jets 320 on the auxiliary material feeder assembly 32 spray, into the major ingredient unit 310, as a kind of preferred Embodiment, the jet 320 is three in same level, and is laid around the axis of major ingredient buffering chamber 313 Put.

Wherein, as shown in Fig. 1,2 and 4, the major ingredient buffering chamber 313, which rotates, to be set and is connected with the actuating unit 2, The pressurization part 311 is uniformly fixedly installed on the inwall of the major ingredient buffering chamber 313, the major ingredient buffering chamber 313 rotate into While row major ingredient stir process, pressor areas 3111 is formed in the side of the pressurization part 311, the pressurization part 311 is arranged at On the inside of the major ingredient buffering chamber 313 and to inner process, the pressurization part 311 be uniformly arranged on major ingredient buffering chamber 311 and Positioned at same level, major ingredient buffering chamber 3131 rotates, and is rotated by pressurization part 311 and carries out major ingredient mixing.

Wherein, as shown in Figure 1,2 and 3, the stirring diverging portion 312 includes uniformly being opened in the major ingredient buffering chamber 313 Multiple delivery outlets 3121 and rotation on outer circumference surface are arranged at the agitating paddle 3122 in the delivery outlet 3121, the delivery outlet 3121 in the pressor areas 3111, is sprayed after the major ingredient in pressor areas 3111 is pressurized along delivery outlet 3121, by leading The directed flow driving agitating paddle 3122 of material operates, and sprayed after major ingredient is stirred, into blending space 315 and auxiliary material Mixing.

In addition, the pressurization part 311 is the arc plate structure vertically set as illustrated in fig. 1 and 2, and its cambered surface is prolonged It is identical with the rotation direction of the major ingredient buffering chamber 313 to stretch direction, the agitating paddle 3122 is set for propeller arrangement；Major ingredient delays Storage 313 drives increased pressure board 311 to rotate while rotating, and major ingredient is oriented to by arc, the arc of major ingredient arcuately plate Downwards movement form pressor areas 3111, flow through delivery outlet 3121 high speed major ingredient stream act on propeller-driven its rotation it is same When, by the angle setting structure of propeller blade, major ingredient is outwards dissipated ejection along its surface.

It should be noted that as shown in Fig. 2,3 and 4, major ingredient buffering chamber 313 is in rotation process, by being fixedly installed on it Internal multiple pressurization parts 311 export the master for forming umbrella after carrying out the pressurized of major ingredient after stirring diverging portion 312 is stirred Material unit 310, auxiliary material enter in main flow unit 310 after the ejection of jet 320, and major ingredient is mixed in a manner of coating with auxiliary material Close；The pressurization part 311 is uniformly fixedly installed on the inwall of the major ingredient buffering chamber 313, and major ingredient buffering chamber 313 at the uniform velocity turns It is dynamic, the pressor areas 3111 with constant pressure is formed, the major ingredient amount sprayed through delivery outlet 3121 is constant, is cached with reference to major ingredient The auxiliary material feeding portion 32 of the run-in synchronism of storehouse 313, form major ingredient and mixed with the fixed ratio of auxiliary material, in addition the delivery outlet 3121 and injection Mouth 320 is circle distribution and is correspondingly arranged that therefore, the present invention forms the fixed than mixed of continuous major ingredient and auxiliary material in operation process Close, production efficiency existing for solution prior art is low, matches coarse technical problem.

Further, as shown in Figures 2 and 3, the major ingredient output precision 31 also includes being fixedly installed in the mixing bunker 1 The baffle plate 314 being equipped with the sealing of the outer circumference surface of the major ingredient buffering chamber 313, offer on the baffle plate 314 with it is described defeated The through hole 3141 of 3121 intermittent communicated settings is exported, the through hole 3141 is correspondingly arranged with the jet 320, is formed between the two Preliminary blending space 315；The baffle plate 314 is cylinder tubular construction, and it is sheathed on the outer circumference surface of major ingredient buffering chamber 313, main Buffering chamber 313 is expected in rotation process, and delivery outlet 3121 and the through hole 3141 being arranged on baffle plate 314 are intermittent communicated, are led The interruption injection of material, wherein, when delivery outlet 3121 is closure state, major ingredient pressurized is carried out by pressurization part 311, so that it is guaranteed that The intensity of major ingredient and the stability of spray volume are sprayed, while realizes the stability of major ingredient unit 310.

Further, as shown in Fig. 1,2,4,5 and 6, the auxiliary material feeder assembly 32 is coaxially set with major ingredient output precision 31 Put, and the auxiliary material feeder assembly 32 is located at the outside of major ingredient output precision 31, it includes auxiliary material temporary storing bin 321 and rotated to set The multiple feeding portions 322 being placed in inside the auxiliary material temporary storing bin 321, the feeding portion 322 driven by the actuating unit 2 and with it is described The run-in synchronism of major ingredient buffering chamber 313, the jet 320 are opened on the madial wall of the auxiliary material temporary storing bin 321；In this implementation In example, the jet 320 is located at the lower end of auxiliary material temporary storing bin 321 and major ingredient buffering chamber 313, and two with delivery outlet 3121 respectively Person is distributed in a ring, and the feeding portion 322 is the swash plate structure that both sides are equipped with auxiliary material buffering chamber 321 respectively, and it is turning During dynamic, auxiliary material guiding is carried out by swash plate, auxiliary material is moved downwards along swash plate, forms higher-pressure region, and between jet 320 Disconnection is led to, and the quantitative output of auxiliary material interruption, major ingredient buffering chamber 313 and the synchronous axial system of feeding portion 322 is carried out, so that major ingredient and auxiliary material Synchronous spray mixing.

Embodiment two

As illustrated in fig. 1 and 2, wherein identical with embodiment one or corresponding part uses and one corresponding accompanying drawing of embodiment Mark, for simplicity, hereafter only description and the distinctive points of embodiment one；The difference of the embodiment two and embodiment one exists In：Also include being arranged in the mixing bunker 1 and positioned at the rabbling mechanism 4 of the lower section of major ingredient output precision 31, the mixer Structure 4 delays including the compression unit 41 being fixedly installed, the catalyst storage silo 42 being equipped with the compression unit 41 and with the major ingredient The mixing component 43 that storage 313 is fixedly connected；In the present embodiment, mixing component 43 is fixedly connected with major ingredient buffering chamber 313, is Simplified structure of the present invention, reduce production cost, only a kind of preferred embodiment, mixing component 43 and major ingredient buffering chamber 313 Between connecting shaft be each passed through compression unit 41 and catalyst storage silo 42.

Wherein, as shown in figs. 2 and 7, the compression unit 41 is horizontally disposed piston dish structure, the catalyst storage silo 42 be cylinder barrel structure opening up and moving up and down, and the catalyst storage silo 42 includes being arranged at the multiple convex of its bottom Platform 421, the multiple spouts 422 being opened on the outer circumference surface of catalyst storage silo 42 and be arranged at the catalyst storage silo 42 with Return spring 423 between compression unit 41, the boss 421, spout 422 and jet 320 are located in same perpendicular, institute State spout 422 to be opened on the outer circumference surface of the catalyst storage silo 42, and be located at lower end, catalyst storage silo 42 is to moving up In dynamic process, its increase of seal cavity pressure between compression unit 41, after pressure reaches certain value, catalyst is through spout 422, which spray the compound formed with major ingredient and auxiliary material, contacts, and realizes the quantitative proportioning of three kinds of materials.

In addition, as shown in FIG. 7 and 8, the mixing component 43 is set for opening up umbrella-shaped structure, its outer circumference surface with The inwall of the mixing bunker 1 is equipped with, and the mixing component 43 includes being arranged on multiple collecting boards 431 and the institute on surface The discontinuous connection of boss 421 is stated to set and promote the driving wheel 432 and be opened in it that the catalyst storage silo 42 moves upwards The blanking port 433 of center, the collecting board 431 are the rotation side of arc setting and its bearing of trend and mixing component 43 To identical；The section of mixing component 43 is opening up Figure of eight structure, falls within the mixed material of its upper surface along its surface To center flow, while the circular movement pattern of structure mixing component 43, the mixed material fallen within by under on mixing component 43 pass through Collecting board 431 is collected after breaing up, and is realized the secondary mixing of mixed material, mixed material is flowed to center, mixed so as to improve The mixing uniformity of compound material；In addition, many places mixed material in mixing bunker 1 concentrates on the centre bit of mixing component 43 Put, and mixed it, further improve mixed material and integrally match uniformity.

It should be noted that as shown in Fig. 2,7 and 8, rabbling mechanism 4 includes compression unit 41 and compression of fixed setting The catalyst storage silo 42 and the mixing component 43 of umbrella-shaped structure that portion 41 is equipped with, major ingredient storage silo 313 is in the same of rotation When drive mixing component 43 rotate, during being moved in a circle by the driving wheel 432 on mixing component 43 interruption promote catalysis Agent storage silo 42 moves up, the cooperation of compressed portion 41 and catalyst storage silo 42 by quantitative catalyst with certain proportion with Main and supplementary materials mixture mixing in dropping process, meanwhile, by mixing component 43 with band after rotating manner progress mixed material undertaking Dynamic mixed material rotates mixing, is exported after mixed material is collected by collecting board 431, avoids material stirring and mixedly appear vortex While, the different mixtures material on mixing component 43 is concentrated into mixing, implementation phase mixing, further improves this hair Bright each Material and article holding frame mixing match uniformity.

In the present invention, it is to be understood that：Term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness Degree ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " clockwise ", The orientation or position relationship of instructions such as " counterclockwise " are based on orientation shown in the drawings or position relationship, are for only for ease of and retouch State the present invention and simplify description, rather than instruction or imply signified equipment or specific orientation that element must have, Yi Te Fixed azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or implying relative important Property or the implicit quantity for indicating indicated technical characteristic.Therefore, define " first ", the feature of " second " can be expressed or Person implicitly includes one or more this feature.In description of the invention, " multiple " be meant that two or two with On, unless otherwise specifically defined.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, The change or replacement that any one skilled in the art can readily occur under the technical clarification of the present invention, such as pass through While major ingredient output precision is determined than output with auxiliary material feeder assembly progress major ingredient with auxiliary material, led by multiple diverging portions of stirring The design concept mixed after material stirring output in a manner of coating with auxiliary material, should all be included within the scope of the present invention.Cause This, protection scope of the present invention should be defined by the protection domain of claims.

Claims (9)

1. heat cure furane resins are fixed than production system, including mixing bunker (1) and actuating unit (2), it is characterised in that also wrap Include：

Mixed organization (3), the mixed organization (3) are arranged at the inside of the mixing bunker (1), and it includes major ingredient output precision (31) and auxiliary material feeder assembly (32), the major ingredient output precision (31) include major ingredient buffering chamber (313), are arranged at the major ingredient Multiple pressurization parts (311) on buffering chamber (313) and the stirring diverging portion (312) for being respectively arranged at pressurization part (311) side；

After the pressurized portion of major ingredient (311) supercharging internal in the major ingredient buffering chamber (313), then agitated diverging portion (312) Output is dissipated after stirring, the major ingredient unit (310) of multiple umbrellas is formed in the outside of the major ingredient buffering chamber (313)；Auxiliary material passes through It is interior into the major ingredient unit (310) after being arranged at multiple jets (320) ejection on the auxiliary material feeder assembly (32).

2. heat cure furane resins according to claim 1 compare production system surely, it is characterised in that the major ingredient buffering chamber (313) rotate and set and be connected with the actuating unit (2), the pressurization part (311) is uniformly fixedly installed on the major ingredient On the inwall of buffering chamber (313), while the major ingredient buffering chamber (313) rotates progress major ingredient stir process, in the pressurization The side in portion (311) forms pressor areas (3111).

3. heat cure furane resins according to claim 2 compare production system surely, it is characterised in that the stirring diverging portion (312) multiple delivery outlets (3121) and the rotation setting being uniformly opened on major ingredient buffering chamber (313) outer circumference surface are included Agitating paddle (3122) in the delivery outlet (3121), the delivery outlet (3121) are located in the pressor areas (3111).

4. heat cure furane resins according to claim 3 compare production system surely, it is characterised in that the pressurization part (311) it is the arc plate structure vertically set, and its cambered surface bearing of trend and the rotation of the major ingredient buffering chamber (313) Direction is identical, and the agitating paddle (3122) is set for propeller arrangement.

5. heat cure furane resins according to any one of claims 1 to 4 compare production system surely, it is characterised in that the master Material output precision (31) also includes being fixedly installed on the outer circumference surface in the mixing bunker (1) with the major ingredient buffering chamber (313) The baffle plate (314) being equipped with is sealed, is offered on the baffle plate (314) logical with the delivery outlet (3121) intermittent communicated setting Hole (3141), the through hole (3141) are correspondingly arranged with the jet (320), form preliminary blending space (315) between the two.

6. heat cure furane resins according to any one of claims 1 to 4 compare production system surely, it is characterised in that described auxiliary Material feeder assembly (32) is coaxially disposed with major ingredient output precision (31), and the auxiliary material feeder assembly (32) is located at major ingredient output precision (31) outside, it include auxiliary material temporary storing bin (321) and rotating be arranged at the auxiliary material temporary storing bin (321) it is internal it is multiple enter Give portion (322), the feeding portion (322) by the actuating unit (2) drive and with major ingredient buffering chamber (313) run-in synchronism, The jet (320) is opened on the madial wall of the auxiliary material temporary storing bin (321).

7. heat cure furane resins according to claim 1 compare production system surely, it is characterised in that also include being arranged at institute The rabbling mechanism (4) in mixing bunker (1) and below the major ingredient output precision (31) is stated, the rabbling mechanism (4) includes solid Surely the compression unit (41) that sets, the catalyst storage silo (42) being equipped with the compression unit (41) and with the major ingredient buffering chamber (313) mixing component (43) being fixedly connected.

8. heat cure furane resins according to claim 7 compare production system surely, it is characterised in that the compression unit (41) For horizontally disposed piston dish structure, the catalyst storage silo (42) is cylinder barrel knot opening up and moving up and down Structure, the catalyst storage silo (42) include being arranged at multiple boss (421) of its bottom, are opened in catalyst storage silo (42) outside Multiple spouts (422) on periphery and the return spring being arranged between the catalyst storage silo (42) and compression unit (41) (423), the boss (421), spout (422) and jet (320) are located in same perpendicular.

9. heat cure furane resins according to claim 8 compare production system surely, it is characterised in that the mixing component (43) set for opening up umbrella-shaped structure, its outer circumference surface and the inwall of the mixing bunker (1) are equipped with, the stirring group Part (43) includes being arranged on multiple collecting boards (431) on surface, set with the boss (421) discontinuous connection and promoting institute Driving wheel (432) that catalyst storage silo (42) moves upwards and the blanking port (433) for being opened in its center are stated, it is described Collecting board (431) is that arc is set and its bearing of trend is identical with the rotation direction of mixing component (43).