CN101564758A - Method and system for preparing investment casting mold shell - Google Patents

Abstract

The invention discloses a novel method and a novel system for preparing a mold shell and particularly aims at investment casting. The system 10 comprises a dipping device 14, a stuccoing device 12 and a drying device 16, wherein the drying device 16 is provided with a drying chamber 30 which is used for drying a master mold 20, an infrared light source 34 is arranged in the drying chamber 30, the temperature of the drying chamber can be retained to be over 25 DEG C by using the infrared light source 34 or other heating methods.

Description

A kind of method and system of preparing investment casting mold shell

Technical field

This invention relates to the casting mould production field.This invention is specially adapted to the single or multiple lift material is coated to the making of the investment casting formwork of prefabricated master mold outside.

Background technology

Ceramic shell mould is often adopted in model casting, and its method is to make formwork at the outside single or multiple lift material that applies of master mold.The material that is coated in the master mold outside is the mixture of slurry and sand material normally, and the sand material is granular material, as mineral sand, it is sprinkling upon on the slurry.When ground floor is coated on the master mold, also may not stucco material.Whenever after finishing one deck, could apply follow-up one deck after must waiting its drying, one deck bone dry to the last, a formwork that is wrapping master mold just completes.

Ensuing process is removed master mold exactly from formwork, formwork carries out sintering then.Removing the method for master mold has nothing in common with each other.For example, to wax system master mold, can it be dissolved discharge by heating, the master mold for thermoplastic is made can burn discharge with plastics by heating.

The traditional drying process that formwork is made is at room temperature to hang nature to dry.In the dry run, the moisture content in new each layer that applies is gradually, rather than pop-off.About 21 ~ 23 ℃ in room temperature of common dry runs are carried out in the environment of relative humidity more than 40%.In order to shorten dry run, recommend to be exposed in the air-flow each layer dry.Air-flow has been accelerated evaporation, assists in removing moisture.

A shortcoming of traditional drying method is relatively long drying time, and every layer of drying needs 3 hours usually, even more than 10 hours.This is because the reason of low diffusion gradient.Even significant prolongation drying time, the residual moisture index of coat also is difficult to reach requirement.Especially be positioned at the coat of formwork bottom, residual moisture often is more prone to be diffused into the coat that roughly dries, rather than evaporates.

For above-mentioned reasons, even finished last dry run, certain residual moisture is often arranged still in formwork.These residual moistures hinder and are restricting the formation of the irreversible key of colloid in the slurry.In addition, if reversible colloid key and remaining aqueous vapor reacted in dry latter stage, because reversible key separately, also will weaken the combining structure of formwork.

If there are not enough irreversible colloid keys, just there is the risk of formwork cracking.When the wax system of dissolving master mold or when burning the thermoplastic master mold, because master mold material expanded by heating just may cause formwork to break.It is poor more that the irreversible colloid bond is closed degree, and this risk is just big more.Though adopt external heat to impact, for example be placed in the autoclave, can reduce this risk.But because steam makes formwork invade moisture, the negative effect that will bring form strength to reduce accordingly.

In order to improve the dry run of formwork, water-insoluble organic fiber is mixed in the suggestion of GB 2 350 810 A patents in slurry.Be mixed with organic fiber to dry run by positive effect, and can reduce residual moisture.This is because the capillarity of organic fiber helps the discharge and the evaporation of moisture.In addition, fiber compound structure also helps to improve the uniformity of coating layer, and the thickness of layer can be increased.

Can bring many benefits although be mixed with organic fiber, the drying time of each layer is still long.The multilayer formwork may be made within one day hardly and finish.Cause its fabrication cycle very long.

Summary of the invention

The objective of the invention is to propose a kind of method and system that can produce formwork more apace.

This invention provides a kind of formwork to make the new method of (particularly the formwork of model casting is made), may further comprise the steps: master mold is provided; Outside master mold, form formwork, apply the water base slurry layer of one deck at least, and then finish the formwork coating from level to level; At least dry run; Again master mold is removed from formwork.Its dry run is carried out more than 20 ℃ in temperature, and by controlled infrared radiation.

Being coated in the outer shell of master mold may be certain non-flammable slurry, also can contain granular materials in the shell.Yet according to preferred plan of the present invention, the ground floor that at least directly is coated in the master mold surface should not contain any granular materials.This one deck should be non-flammable liquid adhesive, for example water base Ludox, but can contain not flammable powder.

First scheme of the present invention, i.e. the situation of multilayer film shell structure, each layer all carries out bone dry according to dry run of the present invention.Alternative plan of the present invention, each layer does not all dry (or not having bone dry), or dries below 20 ℃ or 20 ℃ in temperature, or/and carry out incomplete drying under no infrared radiation situation.

The drying of coat can be at constant temperature or is not carried out under the condition of constant temperature.Baking temperature can be more than 20 ℃ or more than 30 ℃, individual cases even can be up to about 45 ℃.But the temperature range about 22 ℃ to 28 ℃ is the most suitable.

If formwork adopts sandwich construction, the baking temperature of each layer can have nothing in common with each other, and maximum temperature can improve along with the increase that applies the number of plies.Because the dry run water evaporates can bring cooling, high dry temperature (hothouse room temperature) can be selected for use and be higher than the temperature that master mold may loss of dimensional stability.In this case, maximum baking temperature can be higher than about 5 ℃ of the temperature (first-selected hothouse temperature is to exceed about 8 ℃ or 10 ℃) that the master mold dimensional stability begins to reduce at least.

In dry run, the master mold that has applied should rotation relatively before at least one infrared light supply.This relative rotational can be between about 0.5rpm and about 8rpm, but rotating speed is more suitable between about 1.5rpm and about 4rpm.

Gas medium by flowing as air, can improve dry run.The flowing velocity of gas medium should be about 0.5m/s to about 8m/s, but that air velocity arrives between about 5m/s at about 1m/s is more suitable.Hothouse relative humidity is controlled at below 35% or below 30%, also helps and improve dry run.According to the preferred option of this invention, the humidity of hothouse preferably is controlled at about below 20% or about below 10%.

Method of the present invention can shorten the dry run of formwork.The drying time of each layer is less than 1 hour, but drying time at about 25min to more suitable between the 45min.When master mold haves three layers or during coat more than 3 layers, has at least the drying time of several layers different with ground floor.Therefore can choose longer than other layer, particularly a little long than the one deck that applies subsequently the drying time of the second layer and/or the 3rd layer and/or the 4th layer.

The function that also can be used as desired formwork drying degree drying time is regulated.According to aforementioned first scheme, formwork has a plurality of coats, and under applying again behind one deck bone dry one deck.If being lower than about 60%, the coat residual moisture can think bone dry, more suitable between residual moisture is lower than about 55% to 40%.According to aforementioned alternative plan, some coat, some coats or all coats are merely able to part and reach dry.

The master mold material of producing formwork can be varied (for example, wax or such as the thermoplastic of ABS one class).Under the situation that adopts the wax master mold, it is melted desirable about 140 ℃ of the temperature of coming out from dry formwork, but get about 150 ℃ more suitable.

Method of the present invention is applicable to many different applications.Because shorten drying time, be particularly suitable for the situation that full form casting process is made prototype (for example, producing one or several foundry goods).In addition, this method also is suitable for industrialized mass process (for example, being configured to have the streamline drying device of chain-linked conveyer).

Except drying means above-mentioned, the present invention also comprises a cover formwork manufacturing system.This system comprises is stained with a sizing device and a slurry layer drying device with what slurry layer was coated to the master mold surface.Drying device is made up of hothouse and at least one infrared light supply that is installed in the hothouse.The temperature of hothouse should be more than 20 ℃, and can regulate.Adopt suitable adjusting or control device (for example, control able to programme) to guarantee the baking temperature characteristic of the baking temperature expected or expectation and the variation of temperature order when regulating baking temperature.

Reaching the required heat energy of baking temperature can be provided by infrared light supply.In this case, infrared light supply must balance and is balanced out the cooling that wind brings and the influence of cooling effect.In order to regulate and control baking temperature, the power consumption of infrared light supply must be monitored by suitable mode, and its brightness can be regulated, and guarantees that the formwork surface temperature is a constant.

In addition or as selecting, can also adopt independent cooling means, for example, at hothouse configuration cooling source of the gas.Also can adopt the heating means except that infrared light supply.

This system can comprise a whirligig, makes the master mold rotation of band coat, in the face of at least one infrared light supply.Master mold and this relative rotation of infrared light supply of band coat guarantees that the surface heats more equably, so improved the quality of coat.This system also can provide the pouring sand device that the outside slurry layer of master mold is carried out stucco.Disposing this sand blasting unit can be bonded in granular material (not necessarily sand) on the slurry layer.

In order to realize that formwork makes automation, can provide one with the master mold formwork at drying device be stained with between the sizing device (in the situation of multilayer) Handling device back and forth.This Handling device also can drench the master mold formwork sand device and be stained with between the sizing device and carry simultaneously.The selection of the route of carrying for convenience was stained with sizing device before drenching the sand device, and drying device is after drenching the sand device.

Description of drawings

Fig. 1 is the side view of formwork manufacturing system of the present invention;

Fig. 2 is the vertical view of formwork manufacturing system shown in Figure 1;

Fig. 3 is the side view of the drying device in the system shown in Fig. 1 and 2;

Fig. 4 is the front view of drying device shown in Figure 3;

Fig. 5 is the vertical view of drying device shown in Figure 3;

Fig. 6 is for carrying out dry ceramic wafer bend test result according to the present invention;

Fig. 7 is for carrying out dry ceramic wafer bend test result according to conventional method.

The specific embodiment

The invention will be further described below in conjunction with the drawings and specific embodiments.

Fig. 1 to Fig. 5 is the following formwork manufacturing system 10 of the present invention that will be described.By different cases and mutual contrast, method of the present invention is further specified.

Illustrated in figures 1 and 2 is the overall arrangement of the automatic manufacturing system 10 of formwork of the present invention.System 10 should be able to finish be stained with slurry, stucco and dry 3 formworks of formwork and make committed step.Correspondingly dispose sander 12 for this reason, be stained with sizing device 14 and drying device 16.System 10 also comprises the robot device 18 of a carrying master mold.

When system 10 operation, the master mold outer surface may still uncoated any material, has perhaps applied one deck or which floor.Master mold 20 shown in Figure 1 has 4 kinds of different location status: in sander, in being stained with sizing device, in drying device or just in handling process.When system 10 as the rapid prototyping making apparatus rather than in batches during the formwork making apparatus, 20 of master molds shown in Figure 1 may be in one of above-mentioned 4 kinds of states.But, if will install 12,14 and 16, and reconfiguring Handling device 18 (for example, changing chain conveyor into) as isolated system, system 10 also can be used for the batch process of formwork.

Under situation shown in Figure 1, sander 12 is configured as the stucco drum, and sand or other granular materials are spread to the rotation master mold 20 that hangs with one deck slurry.Simultaneously, be stained with sizing device and be configured as slurry bucket 14,, master mold 20 is immersed in the slurry bucket 14 by conveying robot 18, and rotation.

The conveying robot unit 18 of loading onto master mold 20 immerses master mold slurry bucket 14, sends into stucco drum 12 or drying device 16.Conveying robot unit 18 has can be along X-axis and y-axis shift chuck 22 moving, that master mold 20 is housed.Chuck 22 also can be around two orthogonal axis rotations, shown in the arrow among Fig. 1 24 and 26.

When using system 10, at first master mold 20 is immersed slurry bucket 14 (when particularly applying ground floor) usually, send into drying device 16 then immediately and carry out drying or send into stucco drum 12 earlier and carry out stucco and send into drying device 16 again and carry out drying.

Fig. 3 to Fig. 5 is the different views of drying device 16.As seen from the figure, drying device comprises hothouse 30, and the inside is equipped with many fans 32 and infrared light sources 34.Plurality of fans is mounted to a row, and is face-to-face with an other row.Fan 32 makes air circulation, and forms air stream, quickens dry run.Can also be clear that at Fig. 4 fan quickens the air-flow along cylinder 36 tangential directions, the heat energy that is produced by infrared light sources 34 is just circulated in hothouse.Therefore, infrared light sources just becomes heater means.For making the coat surface homogeneous heating of master mold 20, the illumination that can regulate infrared light sources makes master mold 20 rotation continuously in hothouse 30 simultaneously.

Drying device also comprises an aircondition 38 that the cooling air is provided.Conditioner 38 is discharged overheated air, provides cold air to air dryer 40, represents with two arrows in Fig. 3.Air dryer 40 adopts the absorption dehydration principle, dry air is sent into hothouse 30, and will be discharged in the environment in the humid air.This cyclic process is also represented with two arrows.From Fig. 5 as seen, in hothouse 30, form the mobile major cycle 46 of air, also in air dryer 40 pipelines, form time circulation 48 simultaneously by fan 32.The air of major cycle 46 and time circulation 48 mixes in air mixing chamber 50.This mixed process can make the air humidity of major cycle 46 reduce, because the humid air of major cycle 46 enters time circulation 48, and from entering air dryer 40 here.This mixed process also makes the air cooling of major cycle 46, is continued to provide by air-conditioner 38 because enter time air of circulation 48 from air dryer 40, promptly through the air of supercooling.

After the temperature of hothouse 30 reached predefined baking temperature, aircondition 38 just started, to offset the heating to dry air from infrared light sources 34.If desired, also can provide other heating means (for example, aircondition 38 also can be configured to provide warm braw to air dryer 40) that to strengthen infrared light sources.Different with Fig. 3 to Fig. 5, aircondition 38 can and air mixing chamber 50 between communication (additional or individually).Therefore aircondition 38 (and air dryer 40) to a certain extent can be set the expection baking temperature.In order to realize this point, aircondition 38 and air dryer 40 need be coupled by suitable control and adjusting device (not shown), and influence the dry run parameter of hothouse 30 by Programmable Logic Controller.

Be noted that the fan 32 among Fig. 3 to Fig. 5 and the arrangement of controlled infrared light sources 34 only are examples.Can imagine that particularly infrared light sources 34.It can be arranged to not only heat for the surface of master mold 20, also can add hot-air, on other surfaces that act on master mold 20.For example, infrared light sources 34 also can be arranged to two or more rows.One row to master mold 20, makes the infra-red radiation that sends always perpendicular to master mold 20 surfaces facing to a row ground.

The ceramic shell mould testpieces of on the formwork manufacturing system of Fig. 1 to Fig. 5, having produced with wax-pattern, and carried out performance test.All testpieces all adopt with a kind of slurry.It contains WEXCOAT suspension binding agent (dioxide-containing silica is 24%), London Greenford, and WEX chemical company produces, the length of 1-5% is organic fiber and the molochite powder (200 order) of 1mm.The initial viscosity of slurry is 41 seconds (measuring with the WEX agar diffusion method).Master mold immerses slurry bucket 14 after about 10 seconds, and except that ground floor, (diameter 0.3 ~ 0.5mm), the master mold after the coating are sent in the drying device 16 of infrared radiation and successively carried out drying to spray molochite particle sand in stucco drum 14.

Wax-pattern is a cube type, and there is the blind hole of a diameter 20mm and the degree of depth 20mm centre.In dry run surface temperature in the blind hole and water content are measured, data see the following form.

First master mold tree has carried out 6 layers (inferior) and has applied, and ground floor does not have stucco.Each layer all passes through bone dry respectively.Each dry run all is to carry out under air-flow 1.5m/s and constant infrared radiation, and maximum baking temperature successively increases.When surperficial residual water content less than about 55% the time, think that dry run finishes.In dry run, the rotary speed of the relative infrared light sources of testpieces is 2.5rpm.Dry indoor air humidity progressively reduces.Whole process is controlled at air humidity about below 20% all the time carefully, and temperature remains at more than 22 ℃.

The time of whole dry run, drying parameter and surface appearance, each layer has all carried out testing (humidity in the hothouse is higher relatively), is listed in the table below.Each parameter of each dry run and surface appearance are all measured 2 to 5 times.

Ceramic die I

Table 1

As can be seen from Table 1,6 layers of total processing time are 3 hours 35 minutes.The only about 3 hours 15 minutes time of dry cost.Dry 10 minutes of ground floor (no sand).About 20 minutes of drying time of the second layer, surperficial residual water content is approximately less than about 30 minutes of 55%, the three layer drying time, the 4th layer about 58 minutes, about 45 minutes of layer 5, the 6th layer about 30 minutes.

The structural thickness of first ceramic shell mould testpieces can be inferred from following table:

Table 2

State	Size	The thickness increment
			The wax master mold	35.0mm	0mm
No sand applies	35.5mm	0.25mm
			Apply for the second time	37.0mm	0.75mm
Apply for the third time	39.0mm	1.0mm
			Apply for the 4th time	40.5mm	0.75mm
Apply for the 5th time	42.0mm	0.75mm
			Apply for the 6th time	44.0mm	1.0mm

According to this table data, be stained with slurry/stucco at every turn after, the average thickness of coating layer is 0.8mm.

Following table is listed to be another drying parameter with ceramic shell mould testpieces of 7 layers of coat.Air velocity in the hothouse is about 1.5 to 2.0m/s.

Ceramic die II

Table 3

Below two tabulars go out two ceramic shell mould testpieces identical, that 8 layers of coat are arranged, but the air velocity when dry is respectively 2 and 4m/s, is used for about 38 seconds of the viscosity of material that testpieces is stained with slurry.

Ceramic die III/1

Table 4

Ceramic die III/2

Table 5

In the case of above-mentioned ceramic shell mould testpieces, after last one deck coat drying, wax-pattern melts immediately.Wax-pattern is melted in the heating furnace that is preheating to 150 ℃ and carries out.Wax melted after 15 to 20 minutes fully.The formwork testpieces of making in hothouse is carried out visual examination, do not have formwork after wax-pattern melts without any damaging or the crack.

Meanwhile, the ceramic shell mould testpieces that another one adopts traditional drying condition (seeing the following form) to make under same wax-pattern thaw condition, causes destroying fully with regard to the crack occurring.This ceramic shell mould testpieces that is used for comparison adopts and the similar method of a last ceramic shell mould is made, and repeats repeatedly to be stained with slurry, stucco and drying.Difference only is that drying is to carry out (not adopting hothouse) under traditional condition, does not have infrared radiation, but fan is arranged, wind speed 1.5m/s.

The contrast test part

Table 6

As can be seen, the testpieces that make than the method that proposes according to the present invention the drying time of comparative test part is much longer from above-mentioned table.

Simultaneously, the testpieces made of the strength ratio conventional method of the testpieces made of the method that proposes according to the present invention is much higher.The strip of testing ceramic bond strength is of a size of 50mm * 20mm * 5mm.A similar bowl-shape silica gel mould is used to make strip.Repeat this silica gel mould is stained with slurry, stucco and dry the processing, apply through 6 to 8 times usually, the thickness of strip can reach about 5mm.

The strip of making according to the present invention (making simultaneously with the master mold tree in some cases) carried out drying 30 minutes in the hothouse of about 25 ℃ of temperature, air humidity 5 to 10%.In dry run, strip is subjected to ultrared radiation.In addition, the strip that compares with it at room temperature carries out drying, air humidity about 50%.Each layer dries surperficial water content and was lower than for 60% (this needs several hours to one day usually).Then these two kinds of strips are carried out bend test.Test is carried out on 7/18 strength-testing machine of Feinmechanik Ralf Koegel company.

Experimental data sees following two tables for details.

Table 7

Test rate Test Rate:1mm/min

Table 8

Test rate Test Rate:1mm/min

Shown in Figure 6 is to carry out dry strip test result according to method of the present invention, and Fig. 7 carries out dry strip test result (two blanks and two sintered parts, the strip of sintered part was 950 ℃ of following sintering 1 hour) according to conventional method.Comparing data clearly illustrates that under sintering state, the bearing capacity of carrying out dry strip according to method of the present invention is above carrying out dry strip according to conventional method more than at least 50%.Carry out according to method of the present invention that dry " bearing capacity of blank strip is also apparently higher than carry out dry blank strip according to conventional method.

The basis of advantage of the present invention is: owing to carry out drying under higher relatively temperature, strengthened the ion exchange process of binding agent colloid surface, made that the irreversible bonding between the colloid is very reliable.Carry out dry tack free by infrared radiation, make the thermal diffusion gradient of being stained with the slurry layer higher, quicken dry run.This latent heat effect makes baking temperature rise to master mold and loses more than the stable temperature, also quickens dry run.

Because the irreversible colloid bonding, each layer coat all reaches bone dry.Formwork just reaches desired intensity immediately when in the end one deck drying finishes.In other words, just need not after the last one deck drying of ceramic shell mould finishes to continue to wait for, can carry out fusible pattern fusing or burning immediately.Yet this way also is not precluded within the individual cases and needs the dry run that extends.

Further shorten at needs under the situation of drying time, can reduce hothouse humidity.A series of test shows that the air humidity of hothouse can be reduced to below 10%, often reaches 2 ~ 8%.

Test shows that the drying of ground floor stucco layer (the normally second layer coat of master mold) is very fast (about 20 minutes) relatively.One deck subsequently or second layer stucco layer for the purpose of guaranteeing that drying fully, need surpass average time (being 60 minutes) drying time.Which floor typical dry time is 30 ~ 35 minutes later on.When dry run began, the residual moisture of coat often was higher than 80%, remained on about 65 ~ 70% in the long duration then, through after 2 ~ 10 minutes (being generally 5 minutes), was reduced to below 50% very soon again.

When adopting method of the present invention to make prototype, adopt the uniform sizing material of same viscosity and the granular materials of same granularity for all coat suggestions.The slurry material can improve degree of wetting uniformly, will be reduced to 38 seconds (using the WEX cup to measure) time of pouring out.When formwork is made beginning, add (usually less than 15min) soakage layer not stucco of one deck, that lack drying time, can improve the surface quality of foundry goods, make it more satisfactory.

Invention has been described with comparison by some cases.But, can be improved on this basis according to the special knowledge of oneself to the people of practical experience is arranged.The number of the allocation plan of system and layout, particularly infrared light sources and fan can be determined according to actual needs.

Claims (25)

1. the method for a preparing investment casting mold shell particularly at model casting, comprising:

-master mold is provided;

-form formwork at the outside coating material of master mold.Apply the water base slurry layer of one deck, apply from level to level then at least earlier; And have a dry run at least,

-from formwork, remove master mold.

It is characterized in that this dry run baking temperature is more than 25 ℃; And under controlled infrared radiation, carry out.

2. the method for preparing investment casting mold shell according to claim 1 is characterized in that, the enforcement temperature range of dry run is about 20 ℃ to about 45 ℃, from about 30 ℃ to about 42 ℃ more suitable.

3. according to claim 1, the method for 2 described preparing investment casting mold shells, master mold has multilayer shell outward, and its maximum baking temperature successively increases.

4. according to the method for the described preparing investment casting mold shell of above-mentioned any one right, it is characterized in that the high dry temperature of dry run is higher than about 5 ℃ of the temperature that master mold begins loss of stability at least, exceed about 8 ℃ more suitable.

5. according to the method for the described preparing investment casting mold shell of above-mentioned any one right, it is characterized in that in dry run, having between the master mold of coat and at least one infrared light sources relative rotary motion is arranged.

6. the method for preparing investment casting mold shell according to claim 5 is characterized in that, between the 8rpm, it is more suitable to arrive 4rpm at 1.5rpm at 0.5rpm for relative rotational.

7. according to the method for the described preparing investment casting mold shell of above-mentioned any one right, it is characterized in that dry run is carried out in the gas medium of forced flow.

8. the method for preparing investment casting mold shell according to claim 7 is characterized in that, the air velocity of gas medium arrives between about 8m/s for about 0.5m/s, and is more suitable to about 5m/s at about 1m/s.

9. according to the method for the described preparing investment casting mold shell of above-mentioned any one right, it is characterized in that dry run is to carry out in air humidity is lower than 35% hothouse, it is about 20% more suitable that humidity is lower than.

10. according to the method for the described preparing investment casting mold shell of above-mentioned any one right, it is characterized in that the carrying out time of dry run is less than 1 hour, it is more suitable to about 45min to be less than about 25min.

11. the method according to the described preparing investment casting mold shell of above-mentioned any one right is characterized in that, master mold haves three layers outward or the coat more than 3 layers, and each after ground floor layer drying time is different.

12. the method for preparing investment casting mold shell according to claim 11 is characterized in that, can select the drying time of the drying time of the second layer and/or the 3rd layer and/or the 4th layer greater than other layer.

13. the method according to the described preparing investment casting mold shell of above-mentioned any one right is characterized in that, multiple coating is arranged outside master mold, the dry run that applies each layer of back is carried out separately behind the last layer bone dry.

14. the method for preparing investment casting mold shell according to claim 13 is characterized in that, can think bone dry if the coat residual moisture is lower than about 60%, and is more suitable between residual moisture is lower than about 55% to 40%.

15. the method according to the described preparing investment casting mold shell of above-mentioned any one right is characterized in that master mold is made by wax, can melt from formwork when temperature surpasses about 140 ℃.

16. the method according to the described preparing investment casting mold shell of above-mentioned any one right is characterized in that, dry run is carried out in hothouse (30).

17. the method according to the described preparing investment casting mold shell of above-mentioned any one right is characterized in that, the thermal source that reaches baking temperature is provided by at least one controlled infrared light sources (34).

18. the method according to the described preparing investment casting mold shell of above-mentioned any one claim is characterized in that this method can be used for the making of prototype.

19. formwork manufacturing system (10) particularly at the manufacturing system of investment casting formwork, is characterized in that, comprises with the lower part:

-be stained with sizing device (14), be used for slurry is coated to above the master mold (20);

-drying equipment (16) is used for drying and is coated to slurry on the master mold (20); This equipment band one hothouse (30) has an infrared light sources (34) at least in hothouse (30), the hothouse temperature is more than 25 ℃, and can regulate.

20. formwork manufacturing system according to claim 19 (10) is characterized in that, infrared light sources (34) as a kind of means of heat drying gas.

21., it is characterized in that a cooling device (38 and 40) is arranged according to claim 19 or 20 described formwork manufacturing systems (10), provide cool drying gas to hothouse.

22. according to claim 19,20 and 21 described formwork manufacturing systems (10) is characterized in that, except infrared light sources (34), provide dry kiln (30) householder method in addition.

23., it is characterized in that to the described formwork manufacturing system of claim 22 (10) according to claim 19, a kind of device (22) that will be rotated with the controlled relatively infrared light sources of master mold (20) (34) of coat be provided.

24., it is characterized in that to right 23 described formwork manufacturing systems (10) according to claim 19, the device (12) that the master mold of being stained with behind the slurry (20) is carried out stucco be provided.

25., it is characterized in that to right 24 described formwork manufacturing systems (10) according to claim 19, provide a kind of at least at the Handling device (18) of being stained with carrying master mold between sizing device (14) and the drying device (16).

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