CN1666831A

CN1666831A - Method for assisting removal of sand moldings from castings

Info

Publication number: CN1666831A
Application number: CNA200510065186XA
Authority: CN
Inventors: 斯科特·P·克拉夫顿; 保罗·M·克拉夫顿; 沃尔克·R·克诺布洛赫; 小詹姆斯·L·刘易斯; 伊恩·弗伦奇
Original assignee: Consolidated Engineering Co Inc
Current assignee: Consolidated Engineering Co Inc
Priority date: 2000-07-27
Filing date: 2001-05-23
Publication date: 2005-09-14
Anticipated expiration: 2021-05-23
Also published as: DE60112446D1; KR20030036135A; ATE301017T1; CN1232371C; HK1057020A1; HK1080785A1; CA2422646C; AU2001264864B2; CA2422646A1; EP1303373A1; MXPA02007261A; JP4795624B2; CN1437515A; EP1303373B1; DE60112446T2; CN1325207C; WO2002094479A1; JP2004520174A; KR100768604B1; EP1563930A1

Abstract

Disclosed is a method for dislodging a mold from a casting formed within the mold, including: excitating the mold by high energy impulse; breaking the mold; removing the mold from the casting; and heat treating the casting.

Description

The method of apparatus for assisting removal of sand moldings from castings

Patent application of the present invention the dividing an application that be No. 01811600.0, denomination of invention for the Chinese patent application of " method of apparatus for assisting removal of sand moldings from castings ".

Technical field

The present invention relates to the manufacturing of metal casting on the whole, relates to specifically in the sand mold assembly making foundry goods.

Background technology

The sequence number that the application's requirement was submitted on May 10th, 2000 is 60/202741 U.S. Provisional Application No..

The conventional cast method that is used to form metal casting generally adopts mold or pressing mold, and for example permanent metal stamping and pressing or sand mold form for example surface of cylinder head of required foundry goods on its inner surface.Usually will be placed in the pressing mold by sand and suitable jointing material core that constitute and that limit the foundry goods internal feature, with the feature of further qualification foundry goods.Core is generally used for forming profile and the internal feature in the metal casting, must remove and reclaim the sand material of this core after casting process is finished from foundry goods.

According to application, the adhesive that is used for core and/or sand mold can comprise aerodux, phenolic urethane " refrigerating chamber (cold box) " adhesive or other organic bonds that is fit to.In pressing mold or mold, fill the melt metal alloy then, it is cooled to a certain temperature required so that alloy curing.After alloy is cured as foundry goods, foundry goods moved on to handle stove or be used for further processing comprises heat treatment, reclaim sand and timeliness from core.Heat treatment and timeliness are to adjust the step of metal alloy, thereby they provide the various physical properties that are applicable to different application.Heat treatment can comprise processing and/or hot-working.

Usually before finishing heat treatment, remove sand mold and/or core from foundry goods.The combination of a kind of method of general using or several different methods separates sand mold and/or core from their foundry goods.For example can chisel out sand, perhaps can smash the interior core in sand mold and the foundry goods and remove shakeout by physical shock or vibration foundry goods from foundry goods.In addition, at sand mold and foundry goods during through Overheating Treatment and/or hot desanding stove, be used for sand mold and core organically or but the adhesive of thermal degradation is general is used for the heat treatment foundry goods and is decomposed down with the high temperature that obtains the desired metallic performance or burns because be exposed to, thereby can remove the sand and the recovery of sand mold and core from foundry goods, stay the heat treated foundry goods of completed process.The furnace system of this heat treating castings and method US5957188,5829509 and US5439045 in disclose, its content is hereby incorporated by.In case after foundry goods removes shakeout, in subsequent step, finish heat treatment and timeliness usually.

Technology in for example above-mentioned patent is subjected to the driving of following factor: for example the competition, the cost of raw material raising, energy, labour, discarded object and environmental regulation.These factors constantly require in the field of heat treatment and desanding from this metal casting, to obtain continue progressive.

Summary of the invention

The present invention includes a kind of method and system, be used for improving the foundry goods that forms from sand mold and remove sand mold.According to one embodiment of the invention, by drawing mold and apply the power that is enough to make the mold fragmentation become fragment and come to remove sand mold at quarter from foundry goods.For example by because of apply the thermal expansion of heated foundry goods therein of emittance or inductive energy to mold, perhaps power and/or energy by applying other, and make mold break.In addition, high-pressure fluid can be led mold outer wall and further help breaking of mold.Become various fragments in case mold breaks, they are removed from foundry goods usually.After removing mold, can heat-treat foundry goods, simultaneously the fragment of sand mold is heated to is enough to the temperature that makes its adhesive material burning, is used for reclaiming sand with its destruction and from mold and core.

In another embodiment, but be included in one or more select locations in the shell from the method that foundry goods is removed mold and place one or many places explosive or organically or the material of thermal degradation.Ignition charge specific the time, thus make mold break and become fragment.The fragment that breaks then can be removed from foundry goods.

In addition, but can on the mold that comprises explosive or organic or thermal degradation or active material, add line.Line is placed effectively, but with combine at the explosive in precalculated position and/or the material of organic or thermal degradation, after explosive initiation, improve breaking and removing of part mold on the foundry goods.After mold is removed, the heat treatment of beginning or continuation foundry goods.

Another embodiment of the present invention comprises that the foundry goods that forms by high energy pulse excitation mold removes the method for mold from mold.After through the high energy pulse excitation, mold generally can break, and removes fragment from foundry goods then.High energy pulse generally comprises shock wave, pressure wave, sound wave or its combination that produces from plant equipment, big gun, Compressed Gas and electromechanical equipment.In addition, can apply line, to help the breaking and remove of mold on the foundry goods to mold.

Those skilled in the art can be from below in conjunction with being well understood to various purpose of the present invention, feature and advantage the description of the drawings book.

Description of drawings

Figure 1A-1B is the sectional view of sand mold, represents line that desired location place thereon forms and along breaking that line is caused;

Fig. 2 A-2B is the sectional view of sand mold and foundry goods, and line and the explosive be placed in the sand mold used in expression, and behind ignition charge the breaking and remove of sand mold;

Fig. 3 represents that mold passes the sectional view of handling energy pulse chamber in the stove or that be adjacent, and expression is handled mold assembly and foundry goods with high energy pulse;

Fig. 4 A-4B represents to use pressure fluid to destroy mold to mold;

Fig. 5 A-5B represents that mold moves through the oxygen enrichment chamber and applies Oxygen Flow, but the burning of the adhesive of the organic or thermal degradation of promotion mold.

The specific embodiment

The present invention includes the method for breaking and removing that is used for improving the sand mold on the foundry goods that mold forms, so that mold is quickened to be exposed to heat treatment temperature, and the breaking and reclaim of sand of improving sand mold.Can be before sand mold and foundry goods be put into heat-treatment furnace or unit or in heat-treatment furnace or unit heat treatment and when this unit reclaims sand, remove mold from foundry goods round mold.Be used for heat treating castings and at least partial rupture and the exemplary hot of removing sand mold and core and reclaiming sand to handle furnace system be that 09/313111 U. S. application discloses at the sequence number of US5294994, application on July 27th, 5565046,5738162 and 5957188 and 2000, its content is hereby incorporated by.By improving breaking and removal from the foundry goods of sand mold, foundry goods more promptly is exposed in the heat treatment environment in heat-treatment furnace or chamber.

Therefore when from foundry goods removal mold, the temperature that energy that need be less and time are improved foundry goods is to obtain required processing of foundry goods and the metallicity that is caused.

The method of removing mold from foundry goods is included in sand mold and draws and carve.Drawing the mold of carving is typical " accurately sand mold ", generally constitute by foundry sand material and phenolic resins, phenolic urethane or other organic bonds that is fit to, this adhesive can be degraded and/or burning under the heat treated temperature that is exposed to most of foundry goods processing, and the road is such as is generally known.Sand mold also can comprise the semi-permanent mould mold, by the adhesive of standard and metal for example steel in conjunction with forming.This mold breaks and ruptures along the line that is provided with in mold when adhesive material burns, and removes and remove mold with the foundry goods that is easy to comprise from mold.Line usually along or be provided with round the side of each mold and/or the precalculated position of end face and bottom surface, these positions are selected to optimize breaking of mold usually.Shape according to mold and the foundry goods that forms in mold is provided with line in such precalculated position.

" draw carve " speech is included in to utilize in roof, diapire and/or the sidewall of mold and comprises cutter, milling apparatus and other similarly any machinery of automatic and/or manually operated cutting or fluting apparatus and otch, line, cut, depression, groove or other vestiges of any kind that forms.Line generally forms in the outside of mold, but is not limited to the outer surface of mold, is appreciated that and can rules and slot at the inner surface of mold, and this is replenishing or replacing in the outer surface line.Each mold can adopt various traditional methods to rule, for example by in the forming process of mold, perhaps after it forms to some times that mold and foundry goods are wherein put into heat-treatment furnace, the die casting that place or that form or the line at stroke quarter on the outer surface of mold and/or inner surface.

The power that can also apply on mold is improved the mold fragmentation and is fragmented into various fragments, and these fragments can easily be removed and split away off from foundry goods then.This power can be applied to the inwall of mold, the outer wall of mold, or the two combination.The power that imposes on the mold inwall can also utilize radiant energy, inductive energy or its combination to heat the expansion of foundry goods with further improvement or acceleration foundry goods generally from the thermal expansion of the foundry goods in the mold.The energy source that is used to heat foundry goods can comprise electromagnetic energy, laser, radio wave, microwave or its combination.

The energy source that is used for heated mold and/or foundry goods can comprise laser, radio wave, microwave or other forms of electromagnetic energy and/or its combination.In general, these and other energy sources can or be directed to the specific region towards the external radiation of mold or foundry goods, are used for heated mold and foundry goods to cause thermal expansion, cause that the sand of mold and/or core breaks or ruptures.Perhaps, inductive energy relates to foundry goods and mold is enclosed in the electromagnetic energy field of the electric current that brings out in the foundry goods, causes the heating than low degree of the heating of metal and mold.In general, mold be comparatively insulate rather than conduction comparatively, inductive energy can only provide the thermal effect that adds of limited extent usually in mold, do not reach the degree of the heat that produces in the foundry goods.Other foundry goods heating and expanding method are arranged certainly, be used for breaking of mold.In addition, can be on mold or by mold self add line, with help in conjunction with applied force with mold from foundry goods or mold remove.

Also can for example apply pulse energy in the stove at specially designed process chamber.Design feature can comprise the ability of the effect that can stand pulse and be caused, and is provided for mold/foundry goods is sent into and sent in this chamber, so that the accurate control of pulse to be provided.Energy pulse generally improves the transfer of heat to mold core and foundry goods to a certain extent.Pulse has also promoted the mass transfer of the adhesive gas of degraded to mold and core outside, and the processing gas of band oxygen is to the mass transfer of mold and foundry goods and the loose mass transfer of sand outside foundry goods.Pulse can take place at low frequency or high frequency, and wherein low-frequency pulse is used to produce the power that mold or core are broken usually, and high frequency is used to improve transfer, mass transfer and is breaking than on the small scale some.High-frequency impulse brings out the vibrating effect in the foundry goods to a certain extent, to promote the mechanic effect of said process.

In addition, can destroy mold and/or core by any or all energy that apply in these energy sources to mold and/or core, with the decomposition of the organic or heat chemistry adhesive that promotes sand mold and/or core, this adhesive is destroyed in the presence of heat, therefore is easy to breaking of mold.In addition, apply high-pressure fluid for example air, combustion product, oxygen rich gas or other fluent materials, can destroy mold by outer wall to mold.

In addition, can directly on mold, core or foundry goods, apply the power of the form of shock wave, pressure wave, sound wave or its combination, to help casting film to break and to become fragment.In one embodiment, with high energy pulse excitation mold and/or core, directly to apply power, this power can penetrate the wall of mold, causes mold to be heated, and the destruction that further helps the burnup of mold adhesive and cause mold.Pulse energy can be to continue or power intermittently, can be shock wave, pressure wave, sound wave or its combining form, produces by for example pressurize big gun or Compressed Gas of machinery, dynamo-electric and/or other known equipment.But perhaps can in mold, place the material of low-energy explosive or organic or thermal degradation, ignite or cause, to help mold to break and to remove from foundry goods around it by heated mold.

In more detail, the present invention has designed several replacement embodiments and/or method, with before the heat treatment of foundry goods or among carry out the function of removing or rupturing of sand mold.Be appreciated that described any method can be bonded to each other or separately use.These methods show in Figure 1A-5B.

In the first embodiment of the invention shown in Figure 1A and the 1B, shown the sand mold 10 that wherein has foundry goods 11, it has at least one that forms and generally is a plurality of line 12 or decompression lines in the lateral wall 13 of mold 10.Line/decompression line 12 generally is to cut on the lateral wall of mold, or forms groove or recess, is used as the broken string of the outer wall of mold assembly.Can on the inwall 14 of mold, cut or form line/decompression line 12A, as shown in Figure 1A, and/or on the roof of mold 10 and

diapire

16 and 17, form.

Shown in Figure 1B, these line/decompression line has weakened the mold wall, pre-determining place and the position that mold 10 breaks and disconnects, thereby when power F is applied to the mold wall, the wall that causes mold along Figure 1B 18 shown in line/decompression line split and disconnect.Usually, this power F is included in that foundry goods is heated or foundry goods thermal expansion metal and act on pressure on mold 10 inwalls 14 by foundry goods itself when bearing high temperature in heat-treatment furnace.Expand because the heat in the foundry goods metallic response heat-treatment furnace produces, thus it with the wall of mold to external pressure with push away, cause mold to split and disconnect at the weakened points place of line/decompression line generation.The result, usually before the heat-treatment process of foundry goods or in its starting stage, local or the part of mold is just removed from mold and its foundry goods easily, rather than mold simply breaks and disconnection slowly through long-time burning in the heat treated stove at its adhesive material.

Fig. 2 A-2B represents replacement embodiment of the present invention, is used for destroying and remove mold 20 from the foundry goods 21 that mold forms.In this replaces embodiment, low impact explosive charges 22 is placed on the one or more somes place in the sidewall 23 of mold assembly 20.Explosive is usually located at the key position place in the mold assembly structure, usually near the crucial junction 24 in the wall, for example between sidewall 23 and roof and diapire 26 and 27, thereby removes mold from foundry goods, keeps foundry goods to stand intact simultaneously.Shown in Fig. 2 B, after the low density explosive blast, in mold assembly 20, form gap or passage 28, very dark sidewall that extends through mold and top and the bottom.The result, mold is greatly weakened at these passages or gap location or along them, thereby mold is easy to respond the thermal expansion of foundry goods and/or in order to remove mold and the burning of the mold adhesive material that carries out and be broken into fragment or fragment along these passages 28 from foundry goods easily.

Fig. 3 represents another embodiment of the present invention, is used to disconnect mold 30 and improves its removing from the foundry goods 31.In this embodiment of the present invention, apply various power with high energy pulse or ripple 32 to mold and promote breaking of mold/core sand, these pulses or ripple point to mold 30 when mold 30 passes in the process chamber 33, process chamber 33 is usually located at the front or the arrival end of heat-treatment furnace, thereby before foundry goods was heat-treated, mold and foundry goods passed it usually.The high-frequency impulse of various frequencies and wavelength is sidewall 34 and/or the top or the roof 36 of the one or more pulses from be installed in this chamber or wave producer 37 guiding molds generally.This high energy pulse or ripple generally pass the form generation of shock wave, pressure wave or the sound wave of process chamber air with conduction.Perhaps, as previously mentioned, electromagnetic energy can pulse or is radiated on the wall of mold, with promote to break, heat absorption, adhesive degraded or other treatment effects, be used for removing mold and core sand from foundry goods.This electromagnetic radiation can be other forms that laser, radio wave, microwave maybe can obtain above-mentioned effect.

The high energy pulse excitation mold of guiding mold, and make their vibrations and need not have physics to contact with mold assembly.When mold was passed in pulse, the excitation of mold and vibration were easy to cause breaking of mold and disconnect.Pulse can be continuous impulse or discrete pulse.Discrete pulse can be handled by the gap according to rule.The pulse of handling according to continuous or discontinuous mode can be according to frequency, apply the gap and intensity is come careful control, thereby realizes treatment effect and can not damage foundry goods.In addition, mold can be as mentioned above drawn quarter or a prestress or a weakening at Chosen Point, as Fig. 3 38 shown in, thereby be easy to or promote the disconnection of mold when impacting in the mold vibration or by high energy pulse.Therefore when foundry goods is moved in the heating chamber that enters heat-treatment furnace or the processing of other foundry goods, causes the mold fracture and remove from foundry goods.In addition, as described in the US patent application serial numbers of submitting on July 27th, 2,000 09/627109 (it is hereby incorporated by in full), energy pulse generally also causes the foundry goods in the mold to be heated, produced the thermal expansion of foundry goods like this, thereby the inwall to mold applies power, to be easy to and to improve the disconnection of mold more.

Shown in Fig. 4 A-4B, another embodiment of the present invention is used for improving sand mold and forms breaking and remove (or as previously mentioned on the foundry goods 51 from sand mold, removal is positioned at the core of foundry goods), wherein series of spray nozzles section 42 enters or the path of moving that is positioned at heat-treatment furnace is arranged on ad-hoc location or position along the mold/cores of fully loaded foundry goods usually, it can be the part of heat-treatment furnace, for example in initial or precombustion chamber, or be placed on the front of heat-treatment furnace or before it, remove core from foundry goods with help.The quantity of nozzle segment can be as required, change according to the core print or the design of the foundry goods that will form in mold.Each nozzle segment or assembly 42 are usually included in to be installed on known, the corresponding sidewall in index (Indexed) position, roof or upper wall and/or the lower wall or the diapire of mold and core and foundry goods 41 and the series of spray nozzles 43 or the hair-dryer 70 of orientation.Nozzle 42 quantity of each nozzle segment 42 are variable, and this depends on the core print of foundry goods 51, and each nozzle segment 42 can adopt preferred different spray nozzles 43 layouts and quantity in the different foundry goods 51 of different core prints thereby have.Nozzle 43 or hair-dryer 70 can be controlled automatically by the control system of heat treated section or stove, this control system can operated from a distance nozzle 43 is moved to desired location, shown in the arrow 67 and 68 of Fig. 4 A and 4B about sidewall and the roof and the diapire of mold.

Each nozzle 43 or hair-dryer 70 generally provide the high pressure heat medium.This high pressure heat medium can comprise air, deep fat, water or other known fluent material F, under high pressure (generally being 5-45psig) is directed to sidewall, roof and/or the diapire of each mold/core, if certainly concrete foundry goods needs in using, can adopt higher or lower pressure.These fluid pressures are converted into the high fluid velocity of nozzle 43 outlet, and this nozzle is delivered to mold/core with the energy of fluid, and apply and be enough to the power that makes that at least mold and/or core segment break and/or disconnect.High fluid velocity generally causes or promotes higher transfer of heat to foundry goods, mold and core, and this helps the fracture of mold and core.The fluid stream of the pressurization of being handled by nozzle is applied with Continuous Flow or intermittent flow form, its impacts or contact mold wall and make the mold wall break or crackle, and the adhesive material that can promote sand mold decomposes faster and/or burns, help mold to the small part fracture or disconnect.

Fig. 5 A-5B represents another embodiment of the present invention, is used for improving the foundry goods 91 that comprises from mold and disconnects and remove mold 90.In this embodiment, before mold 90 and their foundry goods move in heat-treatment furnace or the chamber 92 or among, they move through low velocity chamber 93.The oxygen chamber generally is the autoclave of lengthwise, or similar pressurized, heated chamber, can work being higher than under the condition of normal pressure.There is oxygen-enriched environment in oxygen chamber 93, comprises high pressure upstream side 94 and low pressure downstream side 96, and they help toward each other from wherein extracting Oxygen Flow.

When mold passed the low velocity chamber 93 of heating chamber, the oxygen of heating was directed to mold and passes it, shown in figure arrow 97 (Fig. 5 A) and 97 ' (Fig. 5 B).Oxygen is extracted or flows from the hyperbar side direction low atmospheric pressure side in oxygen chamber under pressure, thereby oxygen is compulsorily entered into and can passes mold and/or core.As a result, the adhesive material of part of oxygen and sand mold/core burns, thereby has improved the burning of the adhesive material in heating chamber.Further provide energy from the improvement of adhesive material and oxygen burning for this improvement burning of the adhesive material of mold and core, help to strengthen and/or quicken the fracture of mold and removing from their foundry goods.Line or formation decompression line help this fracture of mold more on mold; as above describe in detail; thereby to mold prestress or with its weakening; thereby when adhesive material burns; the mold wall is easy to split or break, thereby mold can break and fall from their foundry goods and to become fragment or fragment.

In addition, the improvement of adhesive burning is also as the extra and thermal source of conduction normally, and improves the temperature of the foundry goods in the mold assembly, is easy to the adhesive material burning of core, makes that to remove and reclaim transfiguration easy.The result, foundry goods can be warming up to heat treatment temperature quickly, this helps to reduce foundry goods and need carry out foundry goods suitably and the time of staying in the thorough heat treated heat-treatment furnace, described in the US patent application serial numbers of submitting in common 27 days unsettled July in 2000 09/627109, its full text disclosure content is hereby incorporated by.

Described the present invention although those skilled in the art are appreciated that with reference to preferred embodiment, can make various improvement, change and increase to the present invention, and can not break away from the spirit and scope of the present invention.

Claims

1. a foundry goods that forms from mold is removed the method for mold, comprising:

Encourage mold with high energy pulse;

Mold is broken;

Mold is removed from foundry goods; And

The heat treatment foundry goods.

2. the method for claim 1, wherein high energy pulse applies with the shock wave form.

3. method as claimed in claim 2, wherein shock wave utilizes following at least a equipment to produce: plant equipment, big gun, gas-pressurized and electromechanical equipment and their combination.

4. the method for claim 1 also comprises by forming on shell and draws the mold at quarter.

5. method as claimed in claim 4, wherein line is positioned at the precalculated position effectively, is used to destroy mould portion and it is removed from foundry goods.

6. the method for claim 1 was wherein removed the mold fragment before heat treating castings from foundry goods.

7. the method for claim 1 is wherein removed mold from foundry goods and is comprised the heating foundry goods and make foundry goods expand.

8. method as claimed in claim 7 wherein heats foundry goods and comprises from the energy source that is selected from emittance, inductive energy and their combination foundry goods is applied energy.

9. method as claimed in claim 8, wherein energy source is selected from electromagnetic energy, laser, radio wave, microwave and their combination.

10. the method for claim 1, wherein mold is made of sand and degradable adhesive, from foundry goods remove mold be included in mold when high-pressure oxygen-enriched atmosphere, heating burning binder to be easy to breaking of mold.

11. a foundry goods that forms from mold is removed the method for mold, comprising:

Encourage mold with high energy pulse;

High-pressure fluid is directed on the outer wall of mold with the power that is enough to make mold break; And

Mold is removed from foundry goods.

12. method as claimed in claim 11, wherein high-pressure fluid comprises air, deep fat or the water of heating.

13. a foundry goods that forms from mold is removed the method for mold, comprising:

Draw the quarter mold to weaken mold;

High-pressure fluid is directed on the outer wall of mold; And

The mold fragment is removed from foundry goods.

14. method as claimed in claim 13 removes wherein that the mold fragment comprises the heating foundry goods so that the foundry goods in the mold expands.

15. method as claimed in claim 14, wherein heat foundry goods comprise utilize the energy source be selected from emittance, inductive energy and its combination with energy by the mold foundry goods that leads.

16. method as claimed in claim 15, wherein energy source is selected from electromagnetic energy, laser, radio wave, microwave and their combination.

17. method as claimed in claim 13, wherein mold is made of sand and degradable adhesive, removes the mold fragment from foundry goods and comprise that burning mold adhesive is to be easy to breaking of mold when mold heats high-pressure oxygen-enriched atmosphere.

18. method as claimed in claim 13 was wherein removed the mold fragment from foundry goods before heat treating castings.

19. comprising, method as claimed in claim 13, the high-pressure fluid of the shell that wherein leads add hot-air, deep fat or water.

20. a foundry goods that forms from mold is removed the method for mold, comprising:

Select location in shell is placed at least one place explosive;

Ignition charge makes mold break and becomes fragment; And

The mold fragment is removed from foundry goods, wherein removed the mold fragment and comprise that the heating foundry goods makes foundry goods expand.

21. method as claimed in claim 20, wherein mold is made of sand and adhesive.

22. method as claimed in claim 20 also comprises by forming on shell and draws the mold at quarter.

23. method as claimed in claim 22, wherein Hua Xian position combines with the explosive in precalculated position is effective, is used to destroy mould portion and it is removed from foundry goods.

24. method as claimed in claim 20 was wherein removed at least a portion mold before heat treating castings from foundry goods.

25. method as claimed in claim 24 wherein heats foundry goods and comprises from the energy source that is selected from emittance, inductive energy and their combination foundry goods is applied energy.

26. method as claimed in claim 25, wherein energy source is selected from electromagnetic energy, laser, radio wave, microwave and their combination.

27. method as claimed in claim 20, wherein mold is made of sand and degradable adhesive, and this adhesive burns when mold heats in high-pressure oxygen-enriched atmosphere, with the destruction that is easy to mold and removing from the foundry goods.

28. method as claimed in claim 20 wherein also comprises high-pressure fluid is directed on the outer wall of mold.

29. method as claimed in claim 28, wherein high-pressure fluid comprises air, deep fat or the water of heating.