CN204276811U - A kind of sand mould structure reducing Furan Resin-Bonded Sand magnesium iron seepage flow defect - Google Patents
A kind of sand mould structure reducing Furan Resin-Bonded Sand magnesium iron seepage flow defect Download PDFInfo
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- CN204276811U CN204276811U CN201420800110.1U CN201420800110U CN204276811U CN 204276811 U CN204276811 U CN 204276811U CN 201420800110 U CN201420800110 U CN 201420800110U CN 204276811 U CN204276811 U CN 204276811U
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Abstract
The utility model relates to a kind of sand mould structure reducing Furan Resin-Bonded Sand magnesium iron seepage flow defect, it comprises sand mold on sand mold under furane resins, furane resins, be located at described furane resins under the die cavity of sand mold interface and the core that is arranged in described die cavity on sand mold and described furane resins, it also comprises one end and is arranged at the pourable component that the other end that to be connected bottom described core and with described die cavity extends sand mold on described furane resins and the first core rod be connected with described die cavity for getting rid of air in it, and described cavity bottom is provided with multiple film covered sand core.On the one hand one end of pourable component to be arranged at the bottom of core thus to be connected with die cavity, the furan resin-sand of bottom first react with iron liquid, convenient will the SO of generation
2gas is discharged from core rod, reduces SO
2the probability that gas and foundry goods react; On the other hand cavity bottom is provided with multiple film covered sand core, and film covered sand core does not react with iron liquid, can reduce the generation of seepage flow defect so further.
Description
Technical field
The utility model belongs to machine casting field, relates to a kind of sand mould structure reducing Furan Resin-Bonded Sand magnesium iron seepage flow defect particularly.
Background technology
Furan resin-sand technique is from the seventies, and China just begins one's study and applies, and has made great progress, and implementing to show that furan resin-sand technique replacement clay mould drying sand produces large foundry goods in multiple small lot is one of developing direction of domestic casting industry from now on.But Furan Resin-Bonded Sand spheroidal graphite cast-iron, cast(ing) surface can produce flake graphite (being commonly called as sulfurizing defect); Along with the serviceability of product improves constantly, client requires also more and more higher to the metallographic of foundry goods, and sulfurizing defect has become the significant obstacle that furane resins produce spheroidal graphite cast-iron.Research finds, the reason producing sulfurizing defect is: containing p-methyl benzenesulfonic acid in the curing agent in furan resin-sand, and its decomposes produces SO
2gas, SO
2gas absorption is at not solidified cast(ing) surface, thus make S atoms permeating enter in molten iron liquid, react with the element such as Mg, Fe wherein formation sulfide simultaneously, causes the effective dose of Mg, Fe element in nodular iron casting not enough, cause cast product surface layer to bear sheet or non-spherical graphite.Therefore, need the adjustment sand mould structure of furan resin-sand and the main technique of spheroidal graphite cast-iron to overcome sulfurizing defect.
Summary of the invention
The utility model object provides a kind of sand mould structure reducing Furan Resin-Bonded Sand magnesium iron seepage flow defect to overcome the deficiencies in the prior art.
For achieving the above object, the technical solution adopted in the utility model is: a kind of sand mould structure reducing Furan Resin-Bonded Sand magnesium iron seepage flow defect, it comprises sand mold under furane resins, with sand mold on the furane resins of the corresponding sealed lid of sand mold under described furane resins, the die cavity being located at sand mold interface on sand mold and described furane resins under described furane resins and the core be arranged in described die cavity, it also comprises one end and is arranged at the pourable component that the other end that to be connected bottom described core and with described die cavity extends sand mold on described furane resins and the first core rod be connected with described die cavity for getting rid of air in it, described cavity bottom is provided with multiple film covered sand core.
Optimally, described pourable component comprises and to be connected with described die cavity and to be arranged at the inlet bottom described core, the input duct be connected with described inlet and to be connected with described input duct and to be arranged at the sprue gate on described furane resins in sand mold.
Further, under described furane resins on sand mold and described furane resins sand mold interface described input duct in screen pack is installed.
Optimally, described core top is provided with the second core rod be communicated with air.
Because technique scheme is used, the utility model compared with prior art has following advantages: the utility model reduces the sand mould structure of Furan Resin-Bonded Sand magnesium iron seepage flow defect, on the one hand one end of pourable component to be arranged at the bottom of core thus to be connected with die cavity, the furan resin-sand of bottom is first reacted, the convenient SO that will produce with iron liquid
2gas is discharged from core rod, reduces SO
2the probability that gas and foundry goods react, and the iron liquid of cast is in flow regime under the iron liquid of follow-up cast drives, and ensure that the effect diffusion of Mg, Fe, reduces the concentration of its surperficial S element; On the other hand cavity bottom is provided with multiple film covered sand core, and film covered sand core does not react with iron liquid, can reduce the generation of seepage flow defect so further.
Accompanying drawing explanation
Accompanying drawing 1 reduces the structural representation of the sand mould structure of Furan Resin-Bonded Sand magnesium iron seepage flow defect for the utility model;
Wherein: 1, sand mold under furane resins; 2, sand mold on furane resins; 3, pourable component; 31, sprue gate; 32, input duct; 33, screen pack; 34, inlet; 4, die cavity; 5, core; 6, the second core rod; 7, film covered sand core; 8, the first core rod.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model preferred embodiment is described in detail:
The sand mould structure of minimizing Furan Resin-Bonded Sand magnesium iron seepage flow defect as shown in Figure 1, mainly comprises sand mold 2, pourable component 3, die cavity 4, film covered sand core 7 and the first core rod 8 on sand mold 1 under furane resins, furane resins.
Wherein, on furane resins, sand mold 2 to be arranged under furane resins on sand mold 1, and sealed lid corresponding to it, just define die cavity 4(die cavity 4 in the interface of their contacts so corresponding with the structure of foundry goods, in the present embodiment, the shape of die cavity 4 is the shape of traction sheave); Core 5 is arranged in die cavity 4, on the one hand for the formation of the hollow-core construction in the middle part of foundry goods, on the other hand in order to slow down the inflow velocity of casting liquid.Pourable component 3 one end is arranged at the bottom of core 5 and is connected with die cavity 4, the other end extends sand mold 2 on furane resins, thus iron liquid can be poured into a mould by sand mold on furane resins 2 and by the bottom of core 5 to die cavity 4 feed liquor, react although furan resin-sand contacts with iron liquid, create SO
2gas, but the iron liquid of cast is in flow regime under the iron liquid of follow-up cast drives, and ensure that the effect diffusion of Mg, Fe, reduces the concentration of its surperficial S element; And first core rod 8 to be connected with die cavity 4, for getting rid of the SO of air and generation in it in time
2gas, reduces SO
2the probability that gas and foundry goods react.Bottom die cavity 4 (in the present embodiment, be bottom die cavity 4 and corresponding section, traction sheave grooving position) be provided with multiple film covered sand core 7, these film covered sand cores 7 surround the circle corresponding with traction sheave grooving, the furan resin-sand of this position can be avoided so directly to contact with iron liquid, guarantee Mg, Fe valid density of this position, thus reduce the generation of seepage flow defect further.
In the present embodiment, pourable component 3 comprises and to be connected with die cavity 4 and to be arranged at the inlet 34 bottom core 5, the input duct 32 be connected with inlet 34 and to be connected with input duct 32 and to be arranged at the sprue gate 31 on furane resins in sand mold 2.Under furane resins on sand mold 1 and furane resins sand mold 2 interface input duct 32 in screen pack 33 is installed, for filtering the impurity in iron liquid.The top of core 5 is provided with the second core rod 6 be communicated with air, for getting rid of SO in time
2gas, improves the quality of foundry goods further.
Above-described embodiment is only for illustrating technical conceive of the present utility model and feature; its object is to person skilled in the art can be understood content of the present utility model and implement according to this; protection domain of the present utility model can not be limited with this; all equivalences done according to the utility model Spirit Essence change or modify, and all should be encompassed within protection domain of the present utility model.
Claims (4)
1. one kind is reduced the sand mould structure of Furan Resin-Bonded Sand magnesium iron seepage flow defect, it comprises sand mold (1) under furane resins, with sand mold (2) on the furane resins of sand mold (1) corresponding sealed lid under described furane resins, the die cavity (4) being located at sand mold (2) interface on sand mold (1) and described furane resins under described furane resins and the core (5) be arranged in described die cavity (4), it is characterized in that: it also comprises one end and is arranged at described core (5) bottom and the other end that is connected with described die cavity (4) pourable component (3) that extends sand mold (2) on described furane resins and the first core rod (8) of being connected with described die cavity (4) for getting rid of air in it, described die cavity (4) bottom is provided with multiple film covered sand core (7).
2. reduce the sand mould structure of Furan Resin-Bonded Sand magnesium iron seepage flow defect according to claim 1, it is characterized in that: described pourable component (3) comprises and to be connected with described die cavity (4) and to be arranged at inlet (34), the input duct (32) be connected with described inlet (34) of described core (5) bottom and to be connected with described input duct (32) and to be arranged at the sprue gate (31) on described furane resins in sand mold (2).
3. reduce the sand mould structure of Furan Resin-Bonded Sand magnesium iron seepage flow defect according to claim 2, it is characterized in that: under described furane resins on sand mold (1) and described furane resins sand mold (2) interface described input duct (32) in screen pack (33) is installed.
4. reduce the sand mould structure of Furan Resin-Bonded Sand magnesium iron seepage flow defect according to claim 1, it is characterized in that: described core (5) top is provided with the second core rod (6) be communicated with air.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104439063A (en) * | 2014-12-16 | 2015-03-25 | 苏州市通润机械铸造有限公司 | Sand mold structure for reducing seepage defects in ductile iron produced from furan resin sand |
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2014
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104439063A (en) * | 2014-12-16 | 2015-03-25 | 苏州市通润机械铸造有限公司 | Sand mold structure for reducing seepage defects in ductile iron produced from furan resin sand |
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