CN107073562A - The method of the molding equipment and production molding equipment of insertable riser base, sand mo(u)ld including insertable riser base and sand mo(u)ld - Google Patents
The method of the molding equipment and production molding equipment of insertable riser base, sand mo(u)ld including insertable riser base and sand mo(u)ld Download PDFInfo
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- CN107073562A CN107073562A CN201480080056.0A CN201480080056A CN107073562A CN 107073562 A CN107073562 A CN 107073562A CN 201480080056 A CN201480080056 A CN 201480080056A CN 107073562 A CN107073562 A CN 107073562A
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- riser base
- mould
- sand
- compensated cavity
- riser
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22C—FOUNDRY MOULDING
- B22C9/00—Moulds or cores; Moulding processes
- B22C9/08—Features with respect to supply of molten metal, e.g. ingates, circular gates, skim gates
- B22C9/088—Feeder heads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22C—FOUNDRY MOULDING
- B22C1/00—Compositions of refractory mould or core materials; Grain structures thereof; Chemical or physical features in the formation or manufacture of moulds
- B22C1/02—Compositions of refractory mould or core materials; Grain structures thereof; Chemical or physical features in the formation or manufacture of moulds characterised by additives for special purposes, e.g. indicators, breakdown additives
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22C—FOUNDRY MOULDING
- B22C23/00—Tools; Devices not mentioned before for moulding
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22C—FOUNDRY MOULDING
- B22C9/00—Moulds or cores; Moulding processes
- B22C9/02—Sand moulds or like moulds for shaped castings
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- Mechanical Engineering (AREA)
- Chemical & Material Sciences (AREA)
- Materials Engineering (AREA)
- Molds, Cores, And Manufacturing Methods Thereof (AREA)
Abstract
Riser base is that, by molding by hand or the insert by blowing heat-insulated or exothermic compositions and producing, the heat-insulated or exothermic compositions include the tiny balloon of alumina silicate.Mould is mainly made up of silica sand, and with being designed to filled with molten metal to produce the main chamber and at least one compensated cavity of cast member.Insert is assembled in the compensated cavity being made in a mold, and with the inner chamber and the exterior geometry consistent with the geometry of above-mentioned compensated cavity for being designed to molten metal of the reception from feed rising head or small-sized feed rising head.Mould in itself at least one compensated cavity for being made be provided so that, when riser base is inserted into the compensated cavity, the inner chamber of riser base connects to allow molten metal to pass through with the main chamber of mould (part).
Description
Technical field
The present invention relates to the method and apparatus cast in sand mo(u)ld, the feed of casting mould is more particularly related to
System.
Background technology
In order to obtain casting by moulding, mould (being generally made up of sand) is used, the mould includes:
- (being used for part) main chamber, the main chamber adapts to the shape and size of part to be manufactured, increases volume adequacy, make
Molten product at room temperature is obtained to adapt in shape and size so-called " thick mo(u)lded piece ".These chambers by moulding work accordingly
Has (mould plate and core box) formation.
- fill system, is poured into a mould the molten metal alloy or molten metal of constituent part by the fill system.The filling
System is made up of one group of conduit, pipeline and room that can connect the outside of mould with the chamber corresponding to part.
- feeding system (rising head (standpipe, riser) or small-sized rising head), the feeding system allows in the molten metal
Cooling period is to main chamber supplying melting metal.
- chill casting room (chill mold, chills).In some parts, in order to ensure it is determined that part in do not shrink
Defect (contraction), it is necessary to have insert (being made up of metal or graphite), to accelerate the region of part to consolidate in a mold
Change and refrigerating mode.This is common way in casting because it is determined that part in, this is to ensure that up to specification unique
Or best mode.
Fig. 1 generally illustrates the element for constituting casting mould.
Series of steps or stage are needed by moulding manufacture mo(u)lded piece (cast member, casting):
- design.Calculate and checking filling and feeding system, to make part up to specification.
- molding.Using by constituting the mixing being combined together to form with the sand of characteristic by different systems with different
Thing, to obtain mould.
- casting.Liquid alloy is introduced into mold cavity by fill system.In order to complete the filling of mould, it is necessary to make conjunction
Golden " overheat ", and this overheat will primarily depend upon the thickness of part to be manufactured.Inner body will need higher overheat temperature
Degree.
- solidification cooling.Alloy is set to be cooled down in mould until its solidification.Solidification is critical stage, because feeding system must
It must can offset the contraction that casting alloy is undergone.
- mould separating (release).Part, i.e. feeding system and fill system are removed from the molds, it is necessary to destroy sand mo(u)ld.
Therefore, the feeding system correctly designed allows for offsetting the contraction occurred during cooling liquid state metal.It is actual
On, solidification or state change are carried out in two stages:
Cooled down under-liquid.This corresponds to casting temperature TCWith solidification start temperature TLBetween interval.
Cooling in-solidification interval.This refers to the contraction for solidifying the metal between beginning and end temperature, i.e. TL-TSBetween
Interval.
The response of feeding system corresponds to the response of the summation for two contractions being previously mentioned, once because metal is complete
Into solidification, feeder apparatus cannot add metal.
Feeding system, in other words, rising head and small-sized rising head can occupy two entirely different positions in a mold:
- at top.In these cases, feeder apparatus is directly rested on part to be fed, but it can have
Holder Fasteners or separation ring (biscuit (biscuit)).
- in side.In these cases, feeder apparatus is located at side, and passes through so-called " cannula base or rising head
Nest " realizes the connection of the feeder apparatus and part.Riser base (riser base, riser base) is deposited in mould inside formation
The space of thing or chamber (generally with sizable size), it must be occupied with by the rising head in casting by liquid metal
Metal connected with part, and offset the contraction that the metal of part undergoes in its solidification process.As already mentioned, the function
It is referred to as feed, and it is only just meaningful in the liquid phase, just cannot added material because once solidifying.
In order that riser base can realize its function, in other words, in order that during fluid compartments part and rising head it
Between exist connection, it is necessary to solidify part first, then solidify riser base, finally rising head is solidified in itself.This solidification is suitable
Sequence ensures not shrink defect (contraction) in part, so that the part is unavailable.
The dual platen (match plate, match plate) for being commonly used for obtaining the internal structure of sand mo(u)ld produces part to be manufactured
With the chamber of riser base so that the sand mo(u)ld obtained for mould plate shape and riser base chamber duplicate.Therefore, rising head is formed
The chamber of nest is made up of the remainder identical material (silica sand usually combined using different system) with mould.
Therefore, in order to ensure the solidification more late than part of the metal in riser base, not using other non-volumes and geometry
Alternative, in other words, larger size is presented in riser base, and this has on net performance/overall performance significantly affects.
Specific to riser base, there are many limitations in existing method, and most noticeable limitation is as follows:
The chamber of-the pedestal for corresponding to rising head by being made with part identical molding-system (is usually silica sand, silica sand uses institute
The system that the casting of discussion is used is combined).
- its hot property is similar with the hot property of the remainder of mould, therefore, and it is without extra heat-insulated/heat energy power.
- necessarily must be solidified after part due to it, therefore in order to compensate the hot property that its is not enough, take body
Product and geometry.
- net performance/overall performance is quite unfavorable, and net performance/overall performance is crucial in terms of manufacturing cost.
- due in the riser base middle live part for having used liquid metal, therefore the life represented with every mo(u)lded piece in itself
Yield becomes negatively affected.As long as net performance/overall performance is optimized, productivity ratio is improved.
Once-part from mould depart from, then in view of part to be cut is excessive, by riser base separated with part to
It is highly difficult less.
The big quality properties of-routine riser base design also have negative effect to the metallurgy condition of part, because office
Portion's thermal stress is very high.
- due to cut portion it is excessive (height), therefore the separation of riser base and part generates obvious cracking risk.
The content of the invention
The purpose of the present invention is a kind of riser base, and the riser base can be inserted for cast metallic parts (in a simple manner decoupled)
Sand mo(u)ld in, the sand mo(u)ld includes being designed as being filled molten metal obtaining the main chamber and at least one auxiliary of mo(u)lded piece
Chamber.
The exterior geometry for allowing riser base to insert in above-mentioned compensated cavity is presented in the insertable riser base of the present invention, and
And including inner chamber, when riser base is inserted into the compensated cavity of mould, the inner chamber connects the main chamber of mould with feed rising head
It is logical.For example, the shape and construction with the exterior geometry complementation of riser base can be presented in compensated cavity so that pedestal is assembled to this
In compensated cavity.Riser base can also include being designed to be assembled to the element in a part for compensated cavity.
Compensated cavity is arranged in such a way (in a mold) so that when in the compensated cavity that riser base inserts mould, emitted
The inside of oral pit is connected with the main chamber of mould (part), to allow the molten metal in inner chamber to be passed to main chamber.For example, compensated cavity
Can be adjacent with main chamber and single chamber be even formed to promote the formation of mould, in the case of the latter, once insertion emits
Oral pit, main chamber forms and keeps connecting with the inner chamber of riser base.
Another object of the present invention is a kind of sand mo(u)ld for cast metallic parts, and the sand mo(u)ld, which is configured to reception, to be inserted
Enter being incorporated to for formula riser base, the riser base is arranged to receive the molten metal from feed rising head.The mould includes can be by
Filling molten metal is to obtain the main chamber and at least one compensated cavity of mo(u)lded piece, and the compensated cavity, which has, allows the riser base
(inside) geometry of insertion, the compensated cavity is configured such that when in riser base insertion compensated cavity, to emit relative to main chamber
The inner chamber of oral pit makes the main chamber of mould be connected with feed rising head.
Insertable riser base is for example obtained by moulding or blowing by hand independently of mould, and its exterior geometry has
Variable shape and size.These shapes will be preferably simple, such as prismatic, truncated pyramid shape, cylinder or hemispherical.
Will act as the riser base of insert can manufacture for example together with rising head, small-sized rising head or sleeve pipe outside Foundry Works.
Sand mo(u)ld is made up of silica sand.In the present invention, the conventional sand component in addition to containing silica for example iron, feldspar,
Outside other sand of gypsum etc., silica sand is also understood as pure silicon sand.Mould by mould, for example construction main chamber and one or
The mould plate of multiple compensated cavities is obtained, and the compensated cavity has the shape with the insertable riser base for the manufacture that had a definite purpose for this
Corresponding geometry.For example, exterior geometry will preferably prismatic, truncated pyramid shape, cylinder or hemispherical.
When prepare the mould for mo(u)lded piece, riser base is incorporated in mould, in other words, produced by dual platen
One or more compensated cavities (requirement for depending on rising head) of raw main chamber and mould, are then drawn by riser base in the way of core
Enter riser base.
Inner chamber must is fulfilled for the standard of thermal modules so that the decline of liquid metal must be found in feeding system,
With the metal required for adding part during its contraction.
By this way, realize that loader (emits by the insert unrelated with mould or detachable part (riser base)
Mouth, small-sized rising head etc.) connection between the main chamber of mould (part), wherein the insert or detachable part are configured
In mould in itself in made auxiliary space or compensated cavity, for use as riser base.
According to the present invention, riser base includes heat-insulated (insulation) or exothermic compositions.Said composition can include alumina silicate
Tiny balloon and adhesive, preferably cold-box solidify adhesive, and the tiny balloon shows to be equal to or less than by weight
38%th, preferably 20% to 38% alumina content.
As adhesive, any kind of solid-state or liquid resin by corresponding polymerization catalyst can be used.
When molding or blowing, in addition to self-curing technology, heat or cold-box system can also be used.
Composition can include nonfibrous filler, the nonfibrous filler be selected from by oxidizable metal, can aoxidize it is described can
The group of oxidant and inorganic fluoride the fluxing agent composition of oxidized metal.
As oxidizable metal, aluminium, magnesium and silicon, preferably aluminium can be used.As oxidant, alkali metal or alkali can be used
Nitrate, chlorate and the permanganate of earth metal salt, such as alkali and alkaline earth metal ions.Metal oxide can also be used,
Such as iron oxide and manganese oxide, preferably iron oxide.As inorganic fluoride fluxing agent, ice crystal, ptfe aluminum potassium can be used
And potassium hexafluoroaluminate, preferred ice crystal.
The tiny balloon of alumina silicate preferably shows at most 3mm particle diameter, even more preferably less than 1mm particle diameter and about
10% wall thickness of the diameter of microballoon.
A further object of the present invention is the molding equipment that a kind of sand mo(u)ld and riser base by according to the present invention is constituted, and
Wherein described riser base is inserted into the sand mo(u)ld.
Finally, the purpose of the present invention is a kind of method for being used to obtain the molding equipment for being used to cast mo(u)lded piece, the party
Method comprises the following steps:
- silica sand mould is obtained, the mould includes that molten metal can be filled to obtain the main chamber and extremely of mo(u)lded piece
A few compensated cavity, the compensated cavity shows (inside) geometry for being configured to allow for riser base insertion;
- riser base with heat-insulated and/or exothermic material composition is obtained, the riser base includes being used to receive to confess
Expect the inner chamber of the molten metal of rising head and allow outer in the compensated cavity (or multiple compensated cavities) of riser base insertion sand mo(u)ld
Portion's geometry;
- obtained riser base is inserted into the compensated cavity of mould so that the inner chamber of riser base is connected with the main chamber of mould;
- feed rising head is placed on riser base so that the inside of rising head is connected with the inner chamber of riser base.
According to the present invention, heat-insulated or exothermic compositions are presented in riser base.
Said composition can include hollow alumina silicate microballoon and adhesive, and the tiny balloon shows to be equal to by weight
Or the alumina content less than 38%, preferably 20% to 38%.
As adhesive, the solid-state or any kind of resin of liquid by corresponding polymerization catalyst can be used.
In molding or blowing, in addition to self-curing technology, heat or cold-box system can also be used.Preferred embodiment
In, solidify adhesive using cold-box.
Said composition can include the non-fibre selected from the group being made up of oxidizable metal, oxidant and inorganic fluoriding fluxing agent
Tie up filler.
As oxidizable metal, aluminium, magnesium and silicon, preferably aluminium can be used.As oxidant, alkali metal or alkali can be used
Nitrate, chlorate and the permanganate of earth metal salt, such as alkali and alkaline earth metal ions.Metal oxide can also be used,
Such as iron oxide and manganese oxide, preferably iron oxide.As inorganic fluoride fluxing agent, ice crystal, ptfe aluminum potassium can be used
And potassium hexafluoroaluminate, preferred ice crystal.
The tiny balloon of alumina silicate is preferably presented at most 3mm particle diameter, even more preferably less than 1mm particle diameter and about micro-
10% wall thickness of bulb diameter.
Formula of the invention intrinsic can the optional filler containing non-fiber form, the filler is selected from oxidizable metal, oxygen
The group of agent and inorganic fluoriding fluxing agent.
As parent material, above-mentioned formula is used, the formula is manually or by blow moulding, by being suitably catalyzed
Resin used in agent polymerization, so as to obtain shape about prismatic (or truncated pyramid shape or cylinder or hemispherical)
Block, the block contains the shape of the riser base of Previous designs.The dimension precision obtained by these methods is far longer than by tradition
The dimension precision that method of moulding is obtained so that these riser bases are considered as precision element, therefore, and these riser bases can be very
Easily it is coupled to sand mo(u)ld, it might even be possible to reach automatization level.
In order to define the advantage of this patent, it is believed that be necessary to refer to following main contributions:
-Heat-insulating capability.The molding block of riser base insert has heat release and/or heat-insulating properties by what is be described above
Material is made.
-Emission capacity.When manufacture can insert the riser base in mould, the molding block with high heat-insulating capability is used.
-Adhesive system.Energy is manufactured using different adhesive systems (cold-box and hot box, chemical adhesive etc.)
The riser base inserted in mould.
-Geometry.The outwardly and inwardly geometry for the riser base that can be inserted in mould is different, but it can
Using the shape and size most preferably adapted to the need for part to be manufactured.In view of outside must adapt to chamber made in sand mo(u)ld,
And inside must is fulfilled for the condition of rising head/part connection, its concept is relatively easy.
-Molding.In the molding of part, it has been contemplated that accommodate the insert (riser base) for the manufacture that had a definite purpose for this
Chamber.
-Detachable part.The detachable part is related to a kind of insert for being contained in mould and forming new riser base.
The new method is based on using insertable riser base (insert), and it is contained in clearly is existed using mould
In the chamber being made in mould.Chamber in a mold is set to assume a variety of shapes and dimension (prismatic, truncated pyramid shape, half
It is spherical etc.), the chamber belongs to mould and by the remainder identical system or module composition with mould.In the chamber,
The insert of the purpose is placed or set in the form of core, and the insert includes following characteristics or characteristic:
The need for the outer shape and dimension of-insert adapt to various moulds.Prism shape with the angle of outlet can be
It is most common, but be not unique.
The interior shape and dimension of-insert adapt to the feature (meeting rule module) of various parts.Think it is preferred but
It is not that unique shape is near hemispherical.
- its hot property is in response to heat-insulated and/or heat release Consideration, and therefore, the material for manufacturing these inserts has
There is heat-insulated and/or exothermal nature.
The solution that the limitation of existing riser base is satisfied with by the new equipment for being designed as " insertable riser base ", specifically
It is as follows:
- mould formation chamber, accommodates and adjusts the insert of the motivation as this patent in the chamber.The insert is related to
And the block with different shape and dimension, its composition is to be defined as heat-insulated and/or heat release mixture.
- insert has heat-insulated and/or exothermal nature.Based on the formula previously pointed out, increase in view of local thermal modules are significant
Plus, more favourable hot property is realized in the die region for accommodating insertable riser base.
The need for-heat-insulated and emission capacity all adapts to various parts so that the endless number system of combination, while, fit
Answer various needs.
- based on pointed hot Consideration (heat-insulated/emission capacity), it can very significantly reduce the chi of riser base
It is very little.When reducing the size, net performance/overall performance is improved, therefore the metallurgical quality of productivity ratio, even mo(u)lded piece is obtained
To raising.
- completion of part is substantially easier, part completion need by cut it is any be not part object carry out
Separation.In the case where the size of rising head reduces, its separation with part is simpler.
- in the case of using insertable riser base, significantly improve manufacturing cost.Unique drawback is attributed to slotting
Enter the extra cost of part, but financial balance is significantly facilitated using the insert of this property.
The simulation tool of-casting process is highly useful when selecting best insert shape and size.Virtually
Analysis allows to adapt to predict the need for various mo(u)lded pieces.
Brief description of the drawings
Feature in order to supply specification and in order to help to more fully understand the present invention, according to the embodiment party of the present invention
The preferred embodiment of formula, adds one group of accompanying drawing as the part of specification, accompanying drawing table by way of example, and not limitation
Show as follows:
Fig. 1 is the schematic diagram for the element for constituting casting mould.
Fig. 2 describes the two ways that feeder apparatus (being in this case small-sized rising head) is presented.
Fig. 3 represents to be used for the dual platen for obtaining the sand mo(u)ld with main chamber and chamber or riser base in the prior art.
Fig. 4 is the schematic diagram of the insertable riser base according to the present invention, and the riser base is ready for insertion into according to quilt of the present invention
It is configured to receive and accommodates in the sand mo(u)ld of insertable riser base.
Fig. 5 is to include the schematic diagram according to the insertable riser base of the present invention and the molding equipment of sand mo(u)ld.
Fig. 6 A and Fig. 6 B are the comparison diagrams of specific embodiment, are shown by using can be inserted into according to the purpose of the present invention
The situation that formula riser base is replaced traditional riser base and occurred.
Embodiment
Fig. 1 represents casting mould (1), and the mould includes the main chamber (2) corresponding to part to be manufactured and via molding
Instrument (3) formation.In the same phase of molding, fill system (4) and feeder apparatus (5) have been constructed.
Fill system (4) connects the outside of mould (1) with main chamber (2), and by feed rising head, assignment channel and part
On connector or contact (attack) composition.
Feeding system (5) is responsible for being fed to part, in other words, is responsible for offsetting the contraction occurred in liquid changes admittedly.Often
Using with heat-insulated and/or exothermicity small-sized rising head.
Fig. 2 represents two kinds of Common Shapes of feeder apparatus (being in this case small-sized rising head).When feeder apparatus (5) is located at
During the top of part, this is referred to as at " at top ", and in this case without using " riser base ".However, being supplied when in side
During material, it is necessary to use the chamber (6) for riser base.Corresponding to riser base chamber (6) be mould another part, therefore, these
Chamber is formed by mould (3) itself using material is moulded with die assembly (1) identical.
Fig. 3 presents the mould (3) or dual platen of the chamber (6) of the pedestal for obtaining main chamber (2) and formation rising head.
Fig. 4 represents the insertable riser base (7) according to the purpose of the present invention.Insertable riser base (7) is independently of
Casting mould (1) and obtain element, and including can accommodate for be fed to main chamber (2) molten metal inner chamber (8).Also
Casting mould (1) is illustrated, it includes reproducing the main chamber (2) and compensated cavity (9) of the shape of part to be obtained.It can be inserted into and emit
The exterior geometry of oral pit (7) is similar to the geometry of compensated cavity (9) so that riser base (7) can be easily inserted into
In compensated cavity (9).
Fig. 5 represents the insertable riser base (7) being contained in the compensated cavity of mould (1) (9) and insertable rising head
Rising head or small-sized rising head (10) on nest (7).As being observed that in earlier figures 5, make the master of inner chamber (8) and mould (1)
Chamber (2) and rising head are directly connected so that the molten metal accommodated in rising head is fed to the main chamber (2) of mould (1).It was observed that,
Metal one unit of formation of part, riser base and small-sized rising head, in terms of thermal viewpoint, the unit must keep corresponding
Relation.It is appreciated that the material for constituting insertable riser base (7) is similar or identical with the material of small-sized rising head (10), because
Heat-insulated and/or exothermic character must be all presented in they under both of these case, and the material is different from the material of mould (1).It was observed that,
Riser base (7) is the insert in mould (1), and it realizes the function identical function with traditional rising head pocket, and traditional emits
Oral pit chamber is obtained together by being made with mould identical mixture (silica sand) in company with the chamber of part.
Fig. 6 A and Fig. 6 B contribute to situation about being actually occurred during visualization manufacture cast member.Fig. 6 A are shown according to routine
The riser base of technology.As observed by fig. 6, if compared with the diameter of rising head in itself, the size of " riser base " is
It is very big.It is this out of proportion relevant with the thermal characteristics and physical characteristic of mould and the material of rising head.It is readily apparent that
The size of " riser base " makes performance unfavorable, while there is huge ratio between will recognize the riser base and loader in itself
Imbalance.The chamber for replacing " riser base " with the material riser base similar with the material of small-sized rising head allows the solidification for changing feed environment
Model.By optimizing heat-proof quality and providing emission capacity for riser base, make the heat of " riser base " to form the purpose of the present invention
Advantageously, therefore, the amount of metal needed for two kinds of riser bases is entirely different for performance.In fig. 6b, it is observed that according to this hair
The size of the riser base of bright purpose.The size of riser base from being represented in Fig. 6 A is different, in fig. 6b, in view of the geometry knot
Structure is designed and verified by corresponding analog study, and the size of riser base adapts to actual conditions.
Herein, term " including (comprises) " and its variant (such as " including (comprising) ") should not
It is interpreted to exclude, in other words, what these terms were not excluded for having described includes the possibility of other elements, step etc..
It is also noted that the invention is not restricted to embodiments described herein, and also include for example may be used
With implemented by those skilled in the art in the range of inferring from claim modification (for example, on material, size, part,
Selection of construction etc.).
Claims (15)
1. riser base (7), the riser base is inserted into the sand mo(u)ld (1) for cast metallic parts, sand mo(u)ld (1) bag
Include and be designed to filled with molten metal to obtain the main chamber (2) and at least one compensated cavity (9) of mo(u)lded piece, its feature exists
In the riser base has the outside for allowing the riser base (7) to be inserted into the compensated cavity (9) of the mould (1) several
What structure, and wherein, the riser base includes inner chamber (8), when the riser base (7) is inserted into the compensated cavity (9)
When, the inner chamber connects the main chamber (2) of the mould (1) with feed rising head (10), and the riser base (7) includes heat-insulated
Or exothermic compositions.
2. riser base according to claim 1, wherein, described heat-insulated or exothermic compositions include the tiny balloon of alumina silicate
And adhesive, the tiny balloon show by weight be equal to or less than 38% alumina content.
3. riser base according to claim 2, wherein, the aluminum oxide that the tiny balloon shows 20% to 38% contains
Amount.
4. the riser base according to any one of Claims 2 or 3, wherein, described heat-insulated or exothermic compositions include being selected from
The nonfibrous filler of the group formed by oxidizable metal, oxidant and inorganic fluoriding fluxing agent.
5. the riser base according to any one of claim 2 to 6, the heat-insulated and/or exothermic compositions bag of the riser base
Include cold or hot box solidification adhesive.
6. riser base according to any one of the preceding claims, the exterior geometry of the riser base for it is prismatic,
Truncated pyramid shape, cylinder or hemispherical.
7. for the sand mo(u)ld (1) of cast metallic parts, the sand mo(u)ld is configured to receive being incorporated to for insertable riser base (7),
The riser base is provided with the inner chamber (8) for being configured to receive the molten metal from feed rising head (10), it is characterised in that institute
Stating sand mo(u)ld includes to be filled with molten metal to obtain the main chamber (2) and at least one compensated cavity (9), institute of mo(u)lded piece
Stating compensated cavity has the geometry for allowing the riser base (7) to insert, and the compensated cavity (9) is relative to main chamber (2) quilt
It is arranged so that when the riser base (7) is inserted into the compensated cavity (9), the inner chamber (8) of the riser base (7)
The main chamber (2) of the mould (1) is set to be connected with feed rising head (10), and wherein, the sand mo(u)ld (1) is made up of silica sand.
8. sand mo(u)ld according to claim 9, wherein, the interior geometry of the compensated cavity is prismatic, truncated pyramid
Shape, cylinder or hemispherical.
9. molding equipment, appoints as the sand mo(u)ld according to any one of claim 9 or 10 and according in claim 1 to 8
Riser base described in one is formed, wherein, the riser base is inserted into the sand mo(u)ld.
10. the method for obtaining the molding equipment for being used to cast mo(u)lded piece, it is characterised in that methods described includes following rank
Section:
The mould (1) of-acquisition silica sand, the mould includes to be filled with molten metal to obtain the main chamber of mo(u)lded piece
(2) and at least one compensated cavity (9), the compensated cavity shows the geometry for being configured to allow for riser base (7) insertion;
- riser base (7) with heat-insulated and/or exothermic material composition is obtained, the riser base includes coming from for reception
The inner chamber (8) of the molten metal of feed rising head (10) and permission riser base (7) are inserted into the compensated cavity of the mould (1)
(9) exterior geometry in;
- riser base (7) is inserted into the compensated cavity (9) of the mould (1) so that the institute of the riser base (7)
Inner chamber (8) is stated to connect with the main chamber (2) of the mould (1);
- feed rising head (10) is placed on the riser base (7) so that the inside of the rising head (7) and the riser base (7)
The inner chamber (8) connection.
11. method according to claim 12, wherein, the riser base includes heat-insulated or exothermic compositions, described heat-insulated
Or exothermic compositions include the tiny balloon and adhesive of alumina silicate, the tiny balloon shows to be equal to or less than by weight
38% alumina content.
12. method according to claim 12, wherein, the alumina silicate shows 20% to 38% alumina content.
13. the method according to any one of claim 13 or 14, wherein, the riser base includes being selected from by oxidable gold
The nonfibrous filler of the group of category, oxidant and the formation of inorganic fluoriding fluxing agent.
14. the method according to any one of claim 13 to 17, wherein, described heat-insulated and/or exothermic compositions include
Heat or cold-box solidification adhesive.
15. the method according to any one of claim 12 to 18, wherein, the exterior geometry of the riser base and
The interior geometry of the compensated cavity of the mould have prismatic shape, truncated pyramid shape shape, cylinder form or
Hemispherical shape.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/ES2014/070411 WO2015177384A1 (en) | 2014-05-19 | 2014-05-19 | Insertable riser base, sand mould, moulding device consisting of the insertable riser base and the sand mould, and method for producing the moulding device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN107073562A true CN107073562A (en) | 2017-08-18 |
Family
ID=51260887
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201480080056.0A Pending CN107073562A (en) | 2014-05-19 | 2014-05-19 | The method of the molding equipment and production molding equipment of insertable riser base, sand mo(u)ld including insertable riser base and sand mo(u)ld |
Country Status (8)
Country | Link |
---|---|
US (1) | US20170080483A1 (en) |
EP (1) | EP3147046B1 (en) |
CN (1) | CN107073562A (en) |
CA (1) | CA2951268A1 (en) |
ES (1) | ES2802262T3 (en) |
PT (1) | PT3147046T (en) |
RU (1) | RU2016145110A (en) |
WO (1) | WO2015177384A1 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113458338A (en) * | 2021-06-30 | 2021-10-01 | 洛阳航辉新材料有限公司 | Preparation method of riser for titanium alloy casting |
CN114535509A (en) * | 2022-02-22 | 2022-05-27 | 株洲九方铸造股份有限公司 | Slant rising head feeding system |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105983663B (en) * | 2016-06-29 | 2018-07-27 | 马鞍山奥特佳机电有限公司 | Riser carries the dynamic and static disk casting device of automobile air conditioner compressor of muff |
TWI823196B (en) * | 2021-11-26 | 2023-11-21 | 財團法人金屬工業研究發展中心 | System and method for automatically generating a feeder |
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- 2014-05-19 EP EP14745172.8A patent/EP3147046B1/en active Active
- 2014-05-19 US US15/312,140 patent/US20170080483A1/en not_active Abandoned
- 2014-05-19 CA CA2951268A patent/CA2951268A1/en not_active Abandoned
- 2014-05-19 RU RU2016145110A patent/RU2016145110A/en unknown
- 2014-05-19 PT PT147451728T patent/PT3147046T/en unknown
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Also Published As
Publication number | Publication date |
---|---|
EP3147046A1 (en) | 2017-03-29 |
WO2015177384A1 (en) | 2015-11-26 |
CA2951268A1 (en) | 2015-11-26 |
ES2802262T3 (en) | 2021-01-18 |
PT3147046T (en) | 2020-06-17 |
US20170080483A1 (en) | 2017-03-23 |
EP3147046B1 (en) | 2020-02-12 |
RU2016145110A (en) | 2018-05-17 |
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