CN100346910C - Vacuum casting appts. - Google Patents

Abstract

To provide a vacuum melting and casting apparatus, which can improve its availability factor by making the apparatus compact and by increasing the number of cycles of melting and casting, and further can cope with a variety of requirements by selecting each process of melting, casting, and collecting of castings among a plurality of processes. The apparatus is divided into a melting chamber 1, a casting chamber 2, and a collecting camber 3, and the volumes of the respective chambers are reduced. The melting chamber 1 and the casting chamber 2 are connected via a first closed passage 13 having a first gate valve 12, which can be vacuum-sealed even when a degree of vacuum in any chamber is high. A flap valve 99, which opens and closes the end portion of the downstream side of a second closed passage 23 in the collecting chamber 3, is provided between the casting chamber 2 and the collecting chamber 3. When the molten metal is to be poured, the opened first gate valve 12 and the first closed passage 13 are advanced, and the molten metal is poured from a melting furnace 11 of the melting chamber 1 into a rectangular pipe shape rounder 41 provided to pour the molten metal to a tundish 61 of the casting chamber 2. When the molten metal is not to be poured, the first gate valve 12 and the first closed passage 13 are retracted, and then the first gate valve 12 is closed. (C)2004,JPO.

Description

Vacuum casting apparatus

Technical field

The present invention relates to a kind of vacuum casting apparatus that contains the alloy of rare earth element, more particularly, the present invention relates to a kind of melting chamber with melting furnace is separated from each other with the recovery chamber that has the casting chamber of casting device and have a casting product returnable, and passes through the interconnective vacuum casting apparatus of separating mechanism.

Background technology

Proposed in the past with for example samarium-cobalt alloy and Nd Fe B alloys is the vacuum casting apparatus of the alloy that contains rare earth element of representative.Wherein an example is provided with the recovering tray of tiltable melting furnace, tundish, chill roll and casting product in vacuum chamber, melting furnace and chill roll fixedly install, tundish can move to side in vacuum chamber, and recovering tray can take out (reference example as, Japanese documentation 1) from vacuum chamber.

In addition, what also have is provided with the melt-casting chamber, be adjacent to be provided with preparation room with its both sides, two fan doors are installed in respectively on the lateral margin on opening opposite by hinge, its size satisfies can be opened with Yishanmen, close the above-mentioned opening of melt-casting chamber rear side, melting furnace tiltably is supported on the medial surface of each, have tundish and chill roll simultaneously, and have a plurality of can be under atmosphere, that moves between preparation room and the melt-casting chamber is mobile trolley used, even carry out the upkeep operation of melting furnace, the upkeep operation of tundish and chill roll, casting can not interrupted yet, still can tap continuously (reference example as, Japanese documentation 2).

In addition, the object metal that also has is not the alloy that contains rare earth element, and relate to steel, but, for the ingot casting device of under vacuum condition, the molten steel of inducing fusing being cast, because what be provided with melting furnace and casting mold in a vacuum chamber all is the bigger vacuum chamber of volume, it is vacuumized, be difficult to obtain higher vacuum, melting chamber with melting furnace interconnects by the path with separating mechanism with the casting chamber with casting mold, thereby reduce the volume of melting chamber, the vacuum that raising can reach, being arranged on reciprocal circulator between melting chamber and the casting chamber on this path, open separating mechanism during casting simultaneously, circulator is to the melting furnace side shifting, molten steel in the melting furnace is come out of the stove from the leading section of circulator, outflow cast gate process steel ladle from rearward end, molten steel ascending pipe, water die body, flow in the casting mold (reference example as, Japanese documentation 3).

[patent documentation 1] TOHKEMY 2000-79449 communique (2-3 page or leaf, the 2nd figure)

[patent documentation 2] TOHKEMY 2001-138036 communique (the 5th page, the 5th figure)

[patent documentation 3] Japanese kokai publication hei 11-239847 communique (2-3 page or leaf, the 1st figure)

Per 1 casting of the vacuum casting apparatus that patent documentation 1 is exemplified will be vacuum chamber to atmosphere opening, take out recovering tray, if desired, after melting furnace, chill roll, tundish are cleaned, repair or change, make vacuum chamber reach once more fixed vacuum, restart fusing, casting, but, because vacuum chamber is in the time atmosphere under and begins vacuum exhaust, up to reaching till the fixed vacuum, casting has to interrupt, and therefore causes the operational efficiency of device low.And, owing to melting furnace contacts with atmosphere, so easy oxidation of the adhesion metal on the inwall and generation rust stain.

There are not the problems referred to above of patent documentation 1 in the vacuum casting apparatus of patent documentation 2, still, and in order to improve operational efficiency, both sides at melting chamber are provided with preparation room, relative therewith, except preparing also will to prepare a plurality of the mobile trolley used of tundish and chill roll that are provided with two melting furnaces are used alternatingly, cause the whole maximization of device, and, owing to mobile trolley usedly under atmosphere, between the preparation room, melt-casting chamber, move, therefore, productivity, operation are good, but installation cost is bigger.

The ingot casting device of patent documentation 3 will be put cold except the molten steel in the casting mold, therefore cooling needed beyond the time, for the bloom that will form in casting mold takes out, thereby the casting chamber must be to atmosphere opening, therefore can not cast during this, melt processed in the melting chamber also will be interrupted thereupon, so cause the operational efficiency of device low.

Summary of the invention

The present invention makes in view of the above problems, aim to provide all good vacuum casting apparatus of a kind of cost, aspect of performance, when making its miniaturization and reducing installation cost, melting furnace after the shortening miniaturization, the free time of casting device, increase the cycle-index of fusing, casting, thereby raising operational efficiency, and a kind of vacuum casting apparatus that can adapt to various purposes, requirement is provided, and can from the multiple processing such as recovery of the casting of the fusing of alloy, motlten metal, casting product, selects, make up.

Above-mentioned problem solves by the described formation of the present invention's first scheme, and this solution is described below successively.

The vacuum casting apparatus of the present invention's first scheme is made of melting chamber, casting chamber and recovery chamber, and described melting chamber is provided with melting furnace, and this melting furnace melts the alloy materials that contains rare earth element under vacuum or in the inert gas medium; Described casting chamber is provided with casting device, this casting device carries out the poured with molten metal of described alloy chilling and forms laminar casting product to the chill roll that rotates at a high speed in vacuum or inert gas medium, described recovery chamber is provided with returnable, and this returnable is used to accommodate, exports described laminar casting product; It is characterized in that: described melting chamber is connected by the first airtight path with described casting chamber, and the described first airtight path is provided with the two which height of vacuum of described melting chamber and described casting chamber all can vacuum-packed gate valve; Described gate valve is opened when casting, and is used for motlten metal is inserted into the described first airtight path from the water guide tubulose circulator that described melting furnace stream supplies to described casting device; Described casting chamber is connected at above-below direction by the second airtight path with described recovery chamber, described recovery chamber is provided with the clack valve that the bottom of the described second airtight path is opened and closed at the top of inside, the upper end of returnable with cover is inserted into the bottom opening that is positioned at the described second airtight path below with described lid, install from the outside dismantledly and airtightly, described lid opens and closes under vacuum or in the inert gas medium by being located at the indoor lid switching mechanism of described recovery.

Such vacuum casting apparatus, can reduce the volume of melting chamber, casting chamber and recovery chamber respectively, shorten vacuum exhaust required time and cleaning required time and improve operational efficiency, and, the time of deposite metal beyond casting that flows to casting device by water guide tubulose circulator from melting furnace is closed by gate valve, the vacuum of melting chamber and casting chamber can independently be controlled, so, the subsequent operation that can in melting chamber and casting chamber, come out of the stove expeditiously, cast respectively.

In the vacuum casting apparatus of alternative plan of the present invention, gate valve comprises the valve plate and the block of the valve plate of described melting chamber side, described casting chamber side; Up and down two connecting rod of the valve plate of described melting chamber side by described melting chamber side opens and closes airtightly to the peristome of the described first airtight path of described melting chamber side, described connecting rod by from be fixed on valve body above cylinder two pins up and down of being inserted into the bottom of the bar in the described valve body airtightly be rotatably mounted; The valve plate of described casting chamber side, two connecting rods up and down by the described casting chamber side that is being rotatably mounted by described up and down two pins open and close airtightly to the peristome of the described first airtight path of described casting chamber side; Described block makes two described valve plates that descend with described bar stop at the position of regulation respectively.

Such vacuum casting apparatus, the valve plate of bar and both sides descends, the valve plate of both sides is connected on the block respectively, bar descends from this position again, then the connecting rod of both sides works, the valve plate of both sides be pressed towards respectively the peristome of the first airtight path of melting chamber side and casting chamber's side the first airtight path peristome and interdict melting chamber and casting chamber.

In the vacuum casting apparatus of third party's case of the present invention, described melting furnace is fixed in the described melting chamber, and the almost whole face of the side of described melting chamber forms to be safeguarded with door.

Such vacuum casting apparatus can shorten needed time of maintenance of the maintenance of crucible of the melting furnace in the narrow melting chamber or replacing etc., improves the operational efficiency of vacuum casting apparatus.

In the vacuum casting apparatus of the cubic case of the present invention, be installed to from the outside under the bottom opening of described recovery chamber and the state that described lid is opened in described returnable with cover, the sealing guide plate of tubular is between the indoor opening that is moved to the described second airtight path lower end and described returnable from position of readiness of described recovery, it is indoor that the cast tablets of making in described casting chamber is fallen described recovery by described sealing guide plate guiding, when described cast tablets manufacturing was finished, described sealing guide plate turned back to described position of readiness.

Such vacuum casting apparatus, can prevent that the laminar casting product that fall from casting chamber are because of on the sealing ring of sealing guide plate attached to the sealing ring of the end face that reclaims the chamber or returnable and lid, and, can prevent that laminar casting product are at random in the indoor generation of recovery.

In the vacuum casting apparatus of the present invention's the 5th scheme, described chill roll can from the lateral opening of described casting chamber to inside be arranged on with inserting mobile trolley used on, under the state in described chill roll is inserted into described casting chamber, described lateral opening is installed in described cover plate for sealing on mobile trolley used and lives.

Such vacuum casting apparatus can carry out maintenance, the replacing operation of chill roll in the place of spaciousness, can carry out these upkeep operations expeditiously.

In the vacuum casting apparatus of the present invention's the 6th scheme, described returnable with cover is provided with the water jacket of refrigerant or heating agent.

Such vacuum casting apparatus, even the casting product contact with atmosphere also can in returnable, will cast product and be cooled to not oxidized temperature, and, in the segregation alloy during special component, can in returnable, heat casting product, special component is spread and reach and homogenize.

Description of drawings

Fig. 1 is the block diagram of the formation of expression vacuum casting apparatus of the present invention.

Fig. 2 is the side view of an example of representing that schematically the inside of the melting chamber of this device and casting chamber constitutes.

Fig. 3 is the plane corresponding with Fig. 2.

Fig. 4 is that the expression melting chamber is in condition of high vacuum degree and casting chamber is under two kinds of situations of condition of high vacuum degree, the sectional view of an example of formation that can vacuum-packed first gate valve.

Fig. 5 is that expression cuts off casting chamber and the interior sectional view at second gate valve that reclaims indoor open and close of second separating mechanism that reclaims the chamber.

Fig. 6 is that expression is equally at clack valve that reclaims indoor open and close and the sectional view that is installed in the returnable in the recovery chamber.

Fig. 7 is that the schematic diagram of cooling armature as the vacuum casting apparatus of casting device adopted in expression.

Fig. 8 is the expression horizontal coldplate of employing and the slip molding box schematic diagram as the vacuum casting apparatus of casting device.

Fig. 9 is the figure of the expression step of casting with the casting device of Fig. 8.

Figure 10 is that the schematic diagram of casting mold as the vacuum casting apparatus of casting device adopted in expression.

Figure 11 is the sectional view that expression has the returnable of refrigerant or heating agent usefulness water jacket.

Figure 12 is the side view of the vacuum casting apparatus of expression embodiment.

Figure 13 is from front elevation that Figure 12 [13]-[13] line direction is seen.

Figure 14 is the plane corresponding with Figure 12.

Figure 15 is the side view that part that the inside of melting chamber, casting chamber, the recovery chamber of expression Figure 11 constitutes is analysed and observe.

Figure 16 is the front elevation that the part corresponding with Figure 15 analysed and observe.

The specific embodiment

As mentioned above, vacuum casting apparatus of the present invention is included under the vacuum or the following melting furnace that melts the alloy that contains rare earth element of atmosphere of inert gases gas, casting device with the cooling and the motlten metal of casting alloy, this vacuum casting apparatus is by the melting chamber with melting furnace, constitute with casting chamber with casting device, and melting chamber and the casting chamber first airtight path that the two which Gao Douke of vacuum carries out vacuum-packed first separating mechanism or is provided with first separating mechanism by no matter is connected, this vacuum casting apparatus also can be included under the vacuum or the following melting furnace that melts the alloy that contains rare earth element of atmosphere of inert gases gas, the casting device of the motlten metal of cooling and casting alloy, hold and export the returnable of the casting product that form, this vacuum casting apparatus is by the melting chamber with melting furnace, casting chamber with casting device, recovery chamber with returnable constitutes, and melting chamber and the casting chamber first airtight path that the two which Gao Douke of vacuum carries out vacuum-packed first separating mechanism or is provided with first separating mechanism by no matter is connected, casting chamber with reclaim the chamber and be connected by second separating mechanism or the second airtight path that is provided with second separating mechanism.

Fig. 1 is the block diagram of the vacuum casting apparatus of the present invention that is made of melting chamber, three chambers of casting chamber and recovery chamber of expression, and is corresponding with alternative plan of the present invention.The vacuum casting apparatus that is made of three chambers is roughly by for example, is fixed with the melting chamber 1, for example of melting furnace 11 that fusing contains the alloy of rare earth element, is fixed with the casting chamber 2 of casting device 21, the recovery chamber 3 with returnable 31 constitutes.In order to shorten the free time of melting furnace 11 and casting device 21, melt continuously as much as possible, casting, and in order to make the device integral miniaturization, cost, aspect of performance is superior, melting chamber 1 makes melting furnace 11 melt in the scope that contains the alloy of rare earth element and come out of the stove efficiently, reduce volume as much as possible, casting chamber 2 also can cool off efficiently, cast in the scope of motlten metal of this alloy, reduce volume as much as possible, same, reclaiming chamber 3 can be recovered to the casting product in the returnable 31, and in the scope of atmospheric side output, reduce volume as much as possible, reduce installation cost respectively, shorten required time of vacuum exhaust and required time of cleaning inside simultaneously, improve operational efficiency, improve and all melting in running time, the cycle-index of casting.And, melting chamber 1 is connected by the first airtight path 13 (or first independent separating mechanism 12A) that aftermentioned is provided with the first separating mechanism 12A with casting chamber 2, and casting chamber 2 is connected by the second airtight path 23 (the second perhaps independent separating mechanism 22A) that aftermentioned is provided with the second separating mechanism 22A with recovery chamber 3.And do not have the recovery chamber 3 among Fig. 1 and be provided with the second separating mechanism 22A the second airtight path 23 (the second perhaps independent separating mechanism 22A) be vacuum casting apparatus corresponding to the present invention's first scheme.

The vacuum casting apparatus of Fig. 1 is in order to shorten the free time of melting furnace 11 and casting device 21 respectively as much as possible, can independently control the vacuum of melting chamber 1 and casting chamber 2, and melting chamber 1 and casting chamber 2 are connected by being provided with the vacuum first airtight path 13 (the first perhaps independent separating mechanism 12A) high or can the vacuum-packed first separating mechanism 12A.Promptly, handling midway, melting chamber 1 than the vacuum height of casting chamber 2 (for example, melted alloy in melting chamber 1, and casting chamber 2 is when under atmospheric pressure carrying out the upkeep operation of casting device 21), and melting chamber 1 lower (for example than the vacuum of casting chamber 2, melting chamber 1 drops into the raw material steel ingot in melting furnace 11, and casting chamber 2 with reclaim chamber 3 be communicated with and keep during fixed vacuum) both of these case all exists.Therefore, the first separating mechanism 12A between melting chamber 1 and the casting chamber 2 can form vacuum seal in both cases.In other words, the pressure height of which side in melting chamber 1 and the casting chamber 2 no matter, on high-tension side pressure all can be pressed to low-pressure side with valve plate, thereby the problem of seal leakage can not occur.Its formation one for example aftermentioned is shown in Figure 4.

Because the vacuum casting apparatus of Fig. 1 connects by the above-mentioned first airtight path 13 (the first perhaps independent separating mechanism 12A) that is provided with the first separating mechanism 12A, be melted the first airtight path 13 (the perhaps independent first separating mechanism 12A that opens) that the motlten metal of the alloy of stove 11 fusing is opened through the first separating mechanism 12A, the casting device 21 that flows to casting chamber 2 is come out of the stove.But, the first airtight path 13 (the first perhaps independent separating mechanism 12A) that is provided with the first separating mechanism 12A is the attaching parts of melting chamber 1 and casting chamber 2 all the time, not only the cast gate of the melting furnace 11 that tilts in the melting chamber 1 flows to casting device 21 and comes out of the stove, and cast to the first airtight path 13 (the perhaps first separating mechanism 12A), if both exist, and isolation then can be had any problem, if the end, upstream of the first airtight path 13 extends to melting furnace 11 places in the melting chamber 1 always, directly accept motlten metal, because the first separating mechanism 12A has vacuum seal portion, the motlten metal that therefore is not suitable for high temperature flows through.

Fig. 2 is the part side view of section of the example that constitutes of the inside of the melting chamber 1 of presentation graphs 1 and casting chamber 2, comprise the melting furnace 11 of being with crucible 18 in the melting chamber 1, in the casting chamber 2 as an example of casting device, have from the chill roll 62 of tundish 61 casting motlten metals, when melting furnace 11 is come out of the stove, the first airtight path 13 that the first separating mechanism 12A opens (the perhaps independent first separating mechanism 12A that opens) inserts from casting chamber's 2 sides, leading section 42 stops at the position shown in the chain-dotted line, promptly reach inclination melting furnace 11 cast gate the position and accept motlten metal, the motlten metal of accepting is provided with the circulator 41A of water guide tubulose and makes it possess the hear resistance that satisfies above-mentioned requirements from the tundish 61 of the bottom surface opening 43 inflow casting chamber 2 of rearward end.That is, the bottom surface of water guide tubulose circulator 41A usually downstream side direction have a down dip, so motlten metal can rely on deadweight to flow to the rear end to survey.

But this water guide tubulose circulator 41A can not become obstacle when the first separating mechanism 12A closes, and for example enters casting chamber's 2 sides under the situation beyond coming out of the stove, that is, and and from moving back and forth to melting furnace 11 in the casting chamber 2.When being provided with water guide tubulose circulator 41A, the first separating mechanism 12A preferably adopts first gate valve 12 that needs the space little, and the drive source of water guide tubulose circulator 41A preferably adopts cylinder (perhaps oil cylinder) 45.Needless to say, with the parts beyond the above-mentioned aqueduct shape circulator 41A motlten metal being flowed also is fine.

Melting furnace 11 melts repeatedly, comes out of the stove, and always the crucible 18 of inside is repaired or will be changed when crackle is arranged.Require melting chamber 1 to have not waste time the structure under the normal condition that can return to fusing, come out of the stove this moment.Equally, casting device 21 cools off repeatedly, casts corresponding to coming out of the stove of melting furnace 11, also needs to clean, repairs, changes.Structure under the normal condition that requires casting chamber 2 to have not waste time this moment can return to cooling, cast.Therefore, reduced the volume of melting chamber 1, casting chamber 2, thereby in narrow space, carried out upkeep operation, thereby the method that wastes time when avoiding safeguarding must have been arranged.

Therefore, wish the whole basically formation door in side of the melting chamber 1 of little volume.Fig. 3 is and the corresponding plane of Fig. 2 that a side or two one-sided doors of opening 17 of the whole basically formation in side of melting chamber 1 are so that upkeep operation.Needless to say, also can resemble the patent documentation 2 the one-sided door of opening is located at both sides.And, melting furnace 11 can also be fixed on one-sided door 17 the inner face side of opening.When melting furnace 11 carried out upkeep operation, because the one-sided door of opening 17 is opened, melting furnace 11 shifted out from melting chamber 1, therefore can further be convenient to upkeep operation.Also can change the melting furnace of melting furnace 11 and preparation at short notice.At this moment, melting furnace 11 will have the high frequency cable that is used to induce heating of melted alloy steel ingot, and this cable can easily load and unload.Have the melting furnace of preparation, the cost of device can increase slightly, but the free time of melting furnace 11 can shorten upkeep operation the time, therefore still can improve the operational efficiency of vacuum casting apparatus.

The casting chamber 2 of little volume is identical with melting chamber 1, and the also whole basically formation door in its side is wished example as shown in Figure 3, and the side of casting chamber 2 forms the one-sided door of opening 27.In addition, casting device 21 also can be arranged on mobile trolley used 64 as described later shown in Figure 16ly, and during casting, the lateral opening 2a insertion from casting chamber 2 when safeguarding, pulls out from casting chamber 2.At this moment, under the state in inserting casting device 21, the cover plate 66 that is installed on mobile trolley used 64 is blocked the lateral opening 2a of casting chamber 2.Setting has mobile trolley used 64 and travel mechanism of casting device 21, can cause the cost of device to increase slightly, carries out the upkeep operation of casting device 21 efficiently, in short time but its advantage is the place of spaciousness that can be under atmosphere.

On the other hand, the second airtight path 23 (the second perhaps independent separating mechanism 22A) is provided with in casting chamber 2 and reclaims and forms the second separating mechanism 22A that connects between the chamber 3, and the path that the casting product of cooling of this second airtight path 23 (the second perhaps independent separating mechanism 22A) formation and solidified forming pass through, therefore, do not need to resemble special organization the above-mentioned water guide tubulose circulator 41A.And, because it is lower than the vacuum of casting chamber 2 usually to reclaim chamber 3, therefore the second separating mechanism 22A is set, make it between the low recovery chamber 3 of the high casting chamber 2 of vacuum and vacuum, form vacuum seal.

Fig. 4 is the amplification sectional view of an example of representing that no matter melting chamber 1 and casting chamber's 2 which vacuum height can both vacuum-packed first gate valves 12.Bar 51 from be fixed on valve body 50 above cylinder 55 insert airtightly in the valve body 50, by connecting rod 52a, the 52b fixing rotationally by means of pin p, valve plate 53a, 53b are installed in the both sides of the bottom of above-mentioned bar 51, thus but the peristome 14b of the first sealed tube 13b of the peristome 14a of the first sealed tube 13a of open and close melting chamber 1 side and casting chamber's 2 sides.The effect of this first gate valve 12 is described below by the valve plate 53a of melting chamber 1 side, the valve plate 53a that descends with bar 51 touches the block 15a that is located at peristome 14a bottom, when bar 51 descends again, then connecting rod 52a works, valve plate 53a is pressed to the first sealed tube 13a side by sealing ring 54a, thereby seals up peristome 14a.Herein, the valve plate 53b of casting chamber's 2 sides also is same.Therefore, when melting chamber 1 and casting chamber's 2 any one vacuums are low, for example, when the pressure of melting chamber 1 is high, its higher pressure presses off the valve plate 53a of melting chamber 1 side, but because the valve plate 53b of casting chamber's 2 sides still keeps air-tight state, therefore, first gate valve 12 vacuum-packed leakage can not occur.When the pressure of casting chamber 2 was high, first gate valve 12 vacuum-packed leakage can not occur too.

When casting chamber 2 was connected by the second airtight path 23 that is provided with the second separating mechanism 22A with recovery chamber 3, the second separating mechanism 22A can be located at any part of the second airtight path 23.When the second separating mechanism 22A is located at the end in the second airtight path, 23 downstreams, come down in reclaiming chamber 3, to carry out open and close, so also can.For example, also can adopt second gate valve 91 shown in Figure 5.Second gate valve 91 is arranged on the top in the recovery chamber 3 with returnable 31, and bar 94 is advanced by cylinder 95 drivings or retreats, and connecting rod 92, valve plate 93 relatively are installed on the leading section of this bar 94 with casting chamber 2.Valve plate 93 is under the effect of cylinder 95, move from the position shown in the chain-dotted line to the second airtight path, 23 belows, touch block 3s and stop, but, when bar 91 was advanced further, connecting rod 92 worked, and valve plate 93 is pressed on the end face that reclaims chamber 3 by the sealing ring 3r of end face, seal up casting chamber's 2 sides, i.e. the end in the second airtight path, 23 downstreams.The pressure that reclaims chamber 3 is identical with the pressure of casting chamber 2 usually, and perhaps the pressure than casting chamber 2 is also high, owing to can not produce the power that valve plate 93 is depressed from the end face that reclaims chamber 3, but therefore casting chamber 2 is lived in second gate valve, 91 vacuum seals of above-mentioned formation.

As shown in Figure 6, can adopt clack valve 99 as being located at the second separating mechanism 22A that reclaims in the chamber 3, this clack valve makes valve plate 97 from the rotating and opening shown in the rotation arrow of rotating shaft 98 of the position shown in the chain-dotted line suchly.When valve plate 97 was in closed condition shown in the chain-dotted line, the sealing ring 3r ' by end face was pressed on the end face that reclaims chamber 3, seals up the end in the second airtight path, 23 downstreams, thereby, in casting chamber 2 with reclaim between the chamber 3 and can form vacuum seal.With cover 32 returnable 31 is installed in airtightly by sealing ring 34r on the opening 3h that reclaims 3 bottoms, chamber, and Fig. 6 shows and covers 32 states of being taken off by switching mechanism 33, and this be will be described later.

In addition, as shown in Figure 1, melting chamber 1 is connected with vavuum pump 6, inert gas ingress pipe 7, and casting chamber 2 is connected with vavuum pump 8, inert gas ingress pipe 9.That is, melting chamber 1, casting chamber 2 according to program keep respectively fixed vacuum, exactly in vacuum exhaust after reaching certain vacuum, import inert gases (for example argon gas and nitrogen) from inert gas ingress pipe 7,9, and keep fixed pressure.Reclaim vavuum pump 8, inert gas ingress pipe 9 that chamber 3 utilizes casting chamber 2 usually, carry out vacuum exhaust or import inert gas, but also can carry out vacuum exhaust, importing inert gas independently with casting chamber 2.

As Fig. 2, shown in Figure 3, casting device 21 is that key element constitutes with chill roll 62, water guide tubulose circulator 41A inserts up to the position shown in the chain-dotted line, motlten metal flows into tundishes 61 from the rearward end 43 of this circulator 41A, and the roll surface of the chill roll 62 that is rotated at a high speed from the motlten metal of these tundish 61 membranaceous casting is accepted, cooling and casting.Because chill roll 62 is rotations at a high speed, therefore, be just to be stretched attenuation before the solidified forming on the roll surface to the motlten metal that roll surface is cast.Therefore, can obtain at an easy rate than from tundish 61 to the thin thickness of the membranaceous motlten metal of roll surface casting many, for example have only 1/30 laminar casting product of its thickness, and can obtain the casting sheet of chilling.

As shown in Figure 7, water guide tubulose circulator 41A inserts up to the position shown in the chain-dotted line, and feeding molten metal is to from the cooling armature 71 that end 43 horizontally rotates thereafter.Promptly, the CD-ROM drive motor with reducing gear 73 of casting chamber 2 belows drives rotating shaft 74 and inserts inner by the 3q of vacuum seal portion, and cooling armature 71 just is installed in the upper end of this rotating shaft 74, cooling armature 71 inside are provided with the path of refrigerant, along outer peripheral portion the lower ring-type mo(u)ld-box 72 of removable height are installed above it.The motlten metal of supplying with from water guide tubulose circulator 41A casts in above the cooling armature 71 of for example rotation of the speed about 1rpm,, and is blocked by the ring-type mo(u)ld-box 72 of peripheral part to whole expansion of cooling armature 71 by rotation.By changing the thickness of setting motlten metal in the ring-type mo(u)ld-box 72 and the rotary speed of cooling off armature 71, can regulate cooling velocity.The laminal casting product that obtain take off from cooling armature 71 with ring-type molding box 72, take out from casting chamber 2.Thereby, recovery chamber 3 shown in Figure 1 is not set and is connected casting chamber 2 and reclaims the second separating mechanism 22A, the second airtight path 23 of chamber 3.

In addition, as shown in Figure 8, casting device be with tundish 75, inside have refrigerant W path horizontal coldplate 76, and the top slide cast case 77 that is placed on coldplate movably be the key element formation, wherein water guide tubulose circulator 41A inserts up to the position shown in the chain-dotted line, the motlten metal that above-mentioned tundish 75 is accepted from the rearward end 43 of this circulator.As the side view of being done along [9] among Fig. 8-[9] line direction, promptly shown in Figure 9 casts like that.Promptly, Fig. 9 A represents to inject in the slide cast case 77 that is placed on the horizontal coldplate 76 from the motlten metal Mm of tundish 75, and by the state of horizontal coldplate 76 coolings, Fig. 9 B represents to be cooled and the casting product Ms and the slide cast case 77 of solidified forming are pushed down by not shown parts, side shifting and stop at state on the opening 78 downstream, Fig. 9 C represents the state that impact part 79 is descending from the top that casts product Ms, Fig. 9 D represents that impact part 79 will cast product Ms and push, the state that it is separated with slide cast case 77.Owing to obtained the casting product of thick plate-like, also can take out the casting product this moment from casting chamber 2.

Above-mentioned three kinds of casting devices 21 all preferably adopt cheaply water as refrigerant.When adopting chill roll 62, as mentioned above, motlten metal to the roll surface casting of rotation at a high speed, causes the motlten metal chilling membranaceously, obtains laminar casting product.And adopt when cooling off armature 71 and ring-type mo(u)ld-box 72, because the area of cooling armature is big, the height of ring-type mo(u)ld-box 72 is lower, therefore, the motlten metal of supplying with obtains the thin discoideus casting product of slow cooling slightly in whole expansion of cooling armature 71.Relative therewith, during the slide cast case 77 of the horizontal coldplate of employing 76 and the face that is placed on it, motlten metal is stayed in the mo(u)ld-box 77, and by horizontal coldplate 76 coolings of downside, so motlten metal turns cold gradually, obtains the casting product of thick plate-like.Thereby, can be according to the cooling velocity of the purposes selection motlten metal of casting product.

Casting device 21 except that above-mentioned, the casting mold that can also adopt motlten metal to flow directly into.From the viewpoint of what is called minimizing number of components, wish that casting mold is also used as out-put container.As shown in figure 10, be provided with a plurality of casting molds 81 in the casting chamber 2, the bottom surface side of water guide tubulose circulator 41A is provided with a plurality of peristomes 43 that can control open and close, and motlten metal is injected each casting mold 81 respectively, can cast out the different casting product of three-dimensional shape different casting product, cooling velocity simultaneously.In addition, also can make the casting mold platform rotation that is placed with a plurality of casting molds or move injection respectively.In with casting mold 81 castings, accommodate the casting product, then casting mold 81 is moved to the atmosphere from casting chamber 2.Therefore, be not provided with this moment yet recovery chamber 3 shown in Figure 1, and connect casting chamber 2 and the second separating mechanism 22A, the second airtight path 23 that reclaim chamber 3.

In reclaiming chamber 3, returnable 31 is set replaceably, for example, second gate valve 91 of the second airtight path 23 shown in Figure 5 is opened, the casting product of discharging from casting device 21 are housed in the returnable, accommodate the returnable 31 of casting product and empty returnable 31 exchanges, and take out to atmospheric side.Therefore, though not shown, also should be provided with in this recovery chamber 3 and be used to the switching mechanism that makes returnable 31 go out, go into.When the casting product of discharging from casting chamber 2 were recovered to the returnable 31, it was identical with the pressure of casting chamber 2 to reclaim chamber 3, still, when returnable 31 when reclaiming chamber 3 taking-ups, close second gate valve 91, recovery chamber 3 is in atmospheric pressure.Thereby the casting product contact with atmosphere.For the casting product are contacted with atmosphere, Fig. 6 contacts some and adopts with cover 32 returnable 31 like that as described above, and its details illustrates in an embodiment.When beginning the recovery of the product of casting once more, reclaim chamber 3 and carry out vacuum exhaust,, begin then to accommodate from the atmospheric pressure vacuum fixed up to reaching.The vavuum pump 8 that is attached to casting chamber 2 is used in this vacuum exhaust as mentioned above usually.

Among Fig. 1, returnable 31 is accommodated the casting product that formed by casting device 21, still, and when casting device 21 once cools off the casting product that form and is in the supercooling state, control the crystalline state of these casting product for further secondary, returnable 31 can be equipped with cooling device or heater.For example, as shown in figure 11, the water jacket 36 that makes refrigerant or heating agent circulation is installed on the outer peripheral face of returnable 31.In addition, when adopting casting mold 81, also can be provided with the water jacket that makes refrigerant or heating agent circulation on the outer peripheral face of casting mold 81 equally, so that the cooling velocity of control motlten metal as casting device 21.

The basic comprising of vacuum casting apparatus of the present invention is melting chamber and casting chamber, perhaps melting chamber, casting chamber and reclaim the chamber, and the higher limit of the installation cost that above-mentioned various inscapes can be as requested and the purposes of casting product make up aptly.Therefore, melting chamber, casting chamber, perhaps they to add the formation that reclaims the chamber be simple combination cheaply, also can select to constitute the high slightly combination of more complicated cost according to purpose and requirement.From the casting product chilling that obtains, crystal size is smaller, and degree of crystallization is lower, and to turning cold gradually, crystal size is bigger, and degree of crystallization is higher, can be according to combination of physical properties melting chamber, casting chamber, the recovery chamber of necessity.

By embodiment, specify vacuum casting apparatus of the present invention with reference to the accompanying drawings.

(embodiment)

Figure 12 is the side view of the vacuum casting apparatus 100 of three Room formation.Vacuum casting apparatus 100 is substantially by the melting chamber 1 with melting furnace, the casting chamber 2 with casting device and reclaim chamber 3 and constitute, and reclaims in the chamber 3 replaceably returnable 31 in addition.Figure 13 is from the front elevation that Figure 12 [13]-[13] line direction is seen, Figure 14 is the plane corresponding with Figure 12.Mainly with reference to Figure 12, melting chamber 1 is supported on the 1b of foot, and the feedway 5 that contains rare earth element alloy materials steel ingot is installed in the top of this melting chamber by last side gate valve 4.In addition, peep hole, metrical instrument etc. also are installed.A side of melting chamber 1 forms the one-sided door of opening to the front of opening 17 by upper and lower hinge 17a.In addition, with reference to Figure 13, Figure 14, melting chamber 1 links to each other with vavuum pump 6 equal vacuum gas extraction system, and casting chamber 2 is connected with vavuum pump 8 equal vacuum gas extraction system.The inert gas ingress pipe has all omitted in two figure.

Melting chamber 1 and casting chamber 2 whichever vacuum height all by be provided with can vacuum-packed first gate valve 12 the first airtight path 13 be connected.The square circulator of aftermentioned that is fenced up by heat-barrier material is located at the top in the casting chamber 2, comes out of the stove, when casting, and cylinder 45 inserts the melting furnace in leading section arrives melting chamber 1 as drive source.And the outside of casting chamber 2 is tied with 2 reinforcing band 2b.With reference to Figure 13, Figure 14, in casting chamber 2, as described later, casting device 21 inserts from the side, pulls out when safeguarding, can carry out upkeep operation, and the below of casting chamber 2 connects by the second airtight path 23 reclaims chamber 3.Staff in the overhaul stand 10 installs back receptacle 31 replaceably at the opening part that reclaims 3 bottoms, chamber.

Figure 15 is the partial cross section figure that represents the side of melting chamber 1, casting chamber 2, recovery chamber 3 enlargedly, is the front elevation corresponding with Figure 16.The inscape that has illustrated in Figure 12～Figure 14 is identical, represents and omits explanation to them as far as possible with prosign, but the key element beyond their is described.Among Figure 15, in the melting chamber 1, melting furnace 11 tiltably is supported on the pillar 11s, tilts shown in chain-dotted line when coming out of the stove, and little the getting of the volume of melting chamber 1 only reaches melting furnace 11 inclinations.Come out of the stove, when casting, first gate valve 12 that connects the above-mentioned first airtight path 13 of melting chamber 1 and casting chamber 2 is opened, square circulator 41 inserts the first airtight path 13 and first gate valve 12 from casting chamber's 2 sides, and motlten metal flows into the leading section 42 of the square circulator 41 that is positioned at position shown in the chain-dotted line from the cast gate 11p of the melting furnace 11 of inclination.

The motlten metal of being accepted by the leading section 42 of square circulator 41 flows to rear end side along the inclination of bottom surface, infeeds in the tundish 61 from the bottom surface opening of rearward end 43.In case from melting furnace 11 end of coming out of the stove, square circulator 41 is got back in the casting chamber 2, first gate valve 12 is closed.

The water-cooled chill roll 62 that is provided with tundish 61 in the casting chamber 2 and rotates at a high speed.Tundish 61 accumulates motlten metal, supplies with chill roll 62 more quantitatively.Be provided with the collection utensil 68 of the casting product that form through supercooling around chill roll 62 roll surfaces, insert in the second airtight path 23 bottom of this collection utensil, collects the laminar casting product that form, and it is fallen downwards.The volume of this casting chamber 2 is very little, only comprises the scope that above-mentioned chill roll 62 can cool off, cast.With reference to front elevation, i.e. Figure 16, chill roll 62 is located on mobile trolley used 64 with CD-ROM drive motor 63.Mobile trolley used 64 along track 65 walkings, and during casting, chill roll 62 inserts from the lateral opening 2a of casting chamber 2.Under the state that chill roll 62 inserts, the cover plate 66 that is installed on mobile trolley used 64 contacts with the flange portion of lateral opening 2a by sealing ring 2r, thereby seals up casting chamber 2.When safeguarding, mobile trolley used 64 move chill roll 62 to shown in the chain-dotted line position, and thus, upkeep operation can efficiently carry out in bigger place, and finish at short notice.

With reference to Figure 15, casting chamber 2 is connected by the second airtight path 23 with recovery chamber 3, in the present embodiment, the second separating mechanism 22A of the second airtight path 23 adopts clack valve 99, the valve plate 97 of this clack valve 99 rotates with the rotation of rotating shaft 98 in reclaiming chamber 3, thus the end in the open and close second airtight path 23 downstreams.Quote earlier figures 6, the opening of recovery chamber 3 end faces of end that is equivalent to the second airtight path, 23 downstreams is under the effect of valve plate 97, and 3r closes by sealing ring, and the staff carries out packing into, taking out of returnable 31 at the opening 3h place that reclaims 3 bottoms, chamber.That is, the opening 3h that reclaims 3 bottoms, chamber is inserted with lid 32 in the upper end of with cover 32 returnable 31, and 34r installs airtightly by sealing ring.Open the valve plate 97 of clack valve 99, it is communicated with casting chamber 2, owing to reclaim chamber 3 through vacuum exhaust, the lid 32 that is positioned at position shown in the chain-dotted line is arranged on the switching mechanism 33 that reclaims chamber 3 and draws back, and moves to the position shown in the solid line.Then, not shown mechanism makes the sealing guide plate 38 of tubular move between second airtight path 23 lower ends and the returnable 31 from the position of readiness shown in the chain-dotted line.Sealing guide plate 38 is avoided simultaneously, being used to also prevent that laminar casting product are at random in recovery chamber 3 on the laminar casting product that fall from the top sealing ring 31r attached to the sealing ring 3r that reclaims chamber 3 end faces and returnable 31 and lid 32.As mentioned above, reclaim to have outside the chamber 3 and cover 32 returnable 31, thereby constitute very little volume.

The formation of the vacuum casting apparatus of present embodiment the following describes its effect as mentioned above.

With reference to Fig. 1, Figure 15, open first gate valve 12 between side gate valve 4 and melting chamber 1 and the casting chamber 2, melting chamber by vavuum pump shown in Figure 14 6 keep fixed vacuum, be full of the motlten metal that the alloy materials steel ingot forms through heating, fusing in the melting furnace 11.In the casting chamber 2, chill roll 62 rotations of water-cooled, square circulator 41 is arranged at top, open the clack valve 99 between casting chamber and the recovery chamber 3, and as Figure 12 and quote shown in Figure 6, returnable 31 is installed in the opening 3h place that reclaims 3 bottoms, chamber airtightly, after this, switching mechanism 33 draws back the lid 32 of returnable 31, between the lower end of the second airtight path 23 and the returnable 31, sealing guide plate 38 begins to move from position of readiness, the casting chamber 2 and the vacuum identical with melting chamber 1 that reclaims that chamber 3 forms under the effect of vavuum pump shown in Figure 14 8.

From above-mentioned state, first gate valve 12 is opened, and in the melting chamber 1, cylinder 45 makes square circulator 41 insert the position shown in the chain-dotted line in melting chamber 1, and motlten metal flows to the leading section 42 of square circulator 41 from the cast gate 11p of the melting furnace 11 of inclination.Motlten metal flows into the tundish 61 of casting chamber 2 along the oblique flow of square circulator 41 bottom surfaces from the bottom surface opening 43 of rearward end.In the casting chamber 2, motlten metal casts on the roll surface of the chill roll 62 that rotates at a high speed from tundish 61 membranaceously, and casts.Promptly, be cooled roller 62 cooling and form laminar casting product of motlten metal, promptly cast sheet, the roll surface collection utensil 68 on every side that the casting sheet is arranged on chill roll 62 reclaims, the casting sheet falls downwards from the second airtight path 23, through the clack valve 99 opened and sealing guide plate 38, finally taken in to draw back and covered in 32 the returnable 31.

In case come out of the stove and cast end, square circulator 41 is got back in the casting chamber 2, and first gate valve 12 is closed.Import atmosphere in melting chamber 1, last side gate valve 4 is opened, and drops into the alloy materials steel ingot from feedway 5 to melting furnace 11.When the circulation of fusing, tapping reaches after institute decide number of times repeatedly, make melting chamber 1 form atmospheric pressure, open the one-sided door of opening 17, the inspection of carrying out melting furnace 11, repairing etc. one-sided open 17 close after, input raw material steel ingot.After dropping into the raw material steel ingot, close side gate valve 4, melting chamber 1 carries out exhaust by vavuum pump 6, and the fixed vacuum until reaching heats, melts the raw material steel ingot then.

On the other hand, in case the sealing guide plate 38 that reclaims in the chamber 3 is got back to position of readiness, clack valve 99 is closed, then the chill roll 62 in the casting chamber 2 stops the rotation and water-cooled, after importing atmosphere, mobile trolley used 64 are shifted out, and the cooling surface of chill roll 62 are cleaned and repair, simultaneously to staying the tundishes 61 in the casting chamber 2 and collecting utensils 68 and check, repair.In case these upkeep operations finish, mobile trolley used 64 make chill roll 62 insert once more in the casting chamber 2 from the lateral opening 2a of casting chamber 2, and the cover plate 66 that the lateral opening 2a of casting chamber 2 is installed on mobile trolley used 64 seals up airtightly.Then, in vavuum pump 8 exhausts, reach fixed vacuum the time, chill roll 62 restarts water-cooled, rotation.

Sealing guide plate 38 has been got back to position of readiness, in the recovery chamber 3 that clack valve 99 is closed, switching mechanism 33 make cover 32 cover on returnable 31 after, import atmosphere, the staff takes out with cover 32 returnable 31 from the opening 3h of recovery chamber 3.At this moment, because returnable 31 inside still keep vacuum, even mechanical fixation not, lid 32 is subjected to impacting waiting and also can come off.Then, the staff inserts the upper end of the lid 32 of new with cover 32 returnable 31 and returnable 31 among the opening 3h of the recovery chamber 3 of having taken out old with cover 32 returnable 31, and pushes down with for example jack etc.Then, switching mechanism 33 draws back and covers 32, opens clack valve 99, and sealing guide plate 38 is moved between the second airtight path 23 and returnable 31 from position of readiness.Reclaim chamber 3 when above-mentioned clack valve 99 is opened, utilize the vavuum pump 8 of casting chamber 2 to carry out vacuum exhaust.Thus, returnable 31 is fixed on and reclaims in the chamber 3.As mentioned above, melting chamber 1 and casting chamber 2, recovery chamber 3 are got back to original state again, and a circulation of melting, coming out of the stove and casting finishes.

As mentioned above, the melting chamber 1 of the vacuum casting apparatus 100 of present embodiment and casting chamber 2, perhaps melting chamber 1, the volume of casting chamber 2 and recovery chamber 3 is as far as possible little, when reducing installation cost, shortened the required time of vacuum exhaust, clean the required time, and, melting chamber 1 and casting chamber 2 vacuum by whichever is higher all can be connected by vacuum-packed first gate valve 12, can independently control the vacuum of melting chamber 1 and casting chamber 2, because the free time that the maintenance of the melting furnace 11 of melting chamber 1 and input raw material steel ingot cause and the processing progress situation of casting chamber 2 are irrelevant, can shorten free time as much as possible, and, because the tundish 61 of casting chamber 2, the processing progress situation of free time that the maintenance of chill roll 62 and replacing cause and melting chamber 1 is irrelevant, can shorten free time as much as possible, compare with existing vacuum casting apparatus, can significantly increase the cycle-index of coming out of the stove and casting in whole running times, with respect to installation cost, the casting amount is big, constitutes cost, the device of superior performance.If carry out a measuring and calculating, the vacuum casting apparatus of patent documentation 2 has 250 to 300kg/ hours production capacity, the production capacity of one example of vacuum casting apparatus of the present invention reached about 150kg/ hour, if comparison means cost, because the vacuum casting apparatus of patent documentation 2 is almost 3.5 times of vacuum casting apparatus of measuring and calculating example, therefore, the device of the measuring and calculating example that installation cost is identical and the vacuum casting apparatus of patent documentation 2 are 3.5: 1, comparative costs, performance, the ability that the vacuum casting apparatus of measuring and calculating example has is the almost twice of the vacuum casting apparatus of patent documentation 2.

By embodiment vacuum casting apparatus of the present invention has been described above, but needless to say, the present invention is not limited to this, can carry out various modification based on technological thought of the present invention.

For example, in the present embodiment, casting device is that chill roll 62 is located on mobile trolley used 64, can from casting chamber 2, shift out, returnable 31 outer with cover 32, be in atmospheric pressure even reclaim chamber 3, the casting product do not contact atmosphere yet, and the operation of maintenance has improved, and installation cost also increases slightly, as example of the present invention is described, casting device is fixed in the casting chamber 2, and returnable 31 is with cover 32, and this returnable is fixed on replaceably and reclaims in the chamber 3, thereby, can reduce installation cost as requested.

And present embodiment for example shows, and melting chamber 1 and the situation that casting chamber 2 is connected by the first airtight path 13 that is provided with first gate valve 12 still, also can connect separately by first gate valve 12.

And in the present embodiment, the switching that with cover 32 returnable 31 reclaims the packing into of chambers 3, taking-up, various valves relatively all is prerequisite with staff, still, also can be carried out automatically by control device.Equally, the staff will be provided with mobile trolley used 64 of chill roll 62 and insert, pulls out casting chamber 2, still, also can carry out automatically.

And, in the present embodiment, adopt square circulator 41 as the thermal insulation water guide tubulose circulator 41A that motlten metal is flowed, still, so long as motlten metal is outwards splashed, good heat insulating, its cross sectional shape what can.

In the present embodiment, at random and cast on the sealing ring of sheet attached to clack valve 99 and returnable 31 in reclaiming chamber 3 for preventing to cast sheet, be provided with cylindric, the open sealing guide plate 38 of Lower Half umbrella, still, as long as can realize above-mentioned purpose, its shape is without limits.

State bright form more than the vacuum casting apparatus of the present invention and implement, the following describes its effect.

Adopt the vacuum casting apparatus of the present invention's first scheme, melting chamber separates formation with casting chamber, and since melting chamber and casting chamber all can vacuum-packed first separating mechanism by which height of vacuum of the two or the first airtight path that is provided with first separating mechanism be connected, therefore, can reduce melting chamber, casting chamber's volume separately, shorten the required time of vacuum exhaust, clean the required time, improve operational efficiency, in addition, when dropping into the raw material steel ingot to melting chamber and melting furnace when safeguarding, owing to can often keep vacuum state, therefore, motlten metal can not contact atmosphere and produce oxidation.And, when the pressure of the pressure ratio casting chamber of melting chamber is high, casting chamber also can keep fixed vacuum, therefore, can irrespectively carry out with the progress situation handled in the casting chamber when dropping into above-mentioned raw materials steel ingot and melting furnace in the melting chamber and carrying out upkeep operation, not have the free time that the stand-by period wastes like that.On the contrary, when the pressure of the pressure ratio casting chamber of melting chamber is low, melting chamber also can keep fixed vacuum, therefore, the heating of raw material steel ingot in the melting chamber, fusing also can irrespectively be carried out with the progress situation handled in the casting chamber, do not have the free time that the stand-by period wastes like that.The casting product that obtain take out from casting chamber.

Adopt the described vacuum casting apparatus of alternative plan of the present invention, melting chamber and casting chamber, reclaiming the chamber is to separate to constitute, and since melting chamber and casting chamber all can vacuum-packed first separating mechanism by which height of vacuum of the two or the first airtight path that is provided with first separating mechanism be connected, casting chamber with reclaim the chamber and be connected by second separating mechanism or the second airtight path that is provided with second separating mechanism, therefore, can reduce melting chamber, casting chamber, reclaim chamber volume separately, shorten the required time of vacuum exhaust, clean the required time, improve operational efficiency, in addition, when dropping into the raw material steel ingot to melting chamber and melting furnace when safeguarding, owing to can often keep vacuum state, therefore, atmosphere can not appear contacting in motlten metal, produces the problem of oxidation.And, when the pressure of the pressure ratio casting chamber of melting chamber is high, casting chamber also can keep fixed vacuum, therefore, can irrespectively carry out with the progress situation handled in the casting chamber when dropping into above-mentioned raw materials steel ingot and melting furnace in the melting chamber and carrying out upkeep operation, not have the free time that the stand-by period wastes like that.On the contrary, when the pressure of the pressure ratio casting chamber of melting chamber is low, melting chamber also can keep fixed vacuum, therefore, the fusing of raw material steel ingot also can irrespectively be carried out with the progress situation handled in the casting chamber in the melting chamber, does not have the free time that the stand-by period wastes like that.The casting product that obtain are recovered container and accommodate, and take out from casting chamber.

Adopt the vacuum casting apparatus of third party's case of the present invention, owing to be provided with the water guide tubulose circulator that makes motlten metal flow to casting device from melting furnace, and in first gate valve of opening when this circulator inserts casting or the first airtight path that is provided with first gate valve, can be to being positioned at the casting device supplying melting metal that separates the place with melting furnace, except that come out of the stove, when casting, retract water guide tubulose circulator, close first gate valve, thereby can control the vacuum of melting chamber and casting chamber independently, in melting chamber and casting chamber, carry out continued operation efficiently.

Adopt the vacuum casting apparatus of the cubic case of the present invention, because melting furnace is fixed in the melting chamber, almost whole of the side of melting chamber forms safeguards with door, therefore, can shorten the repairing of the crucible of melting furnace in the narrow and small melting chamber and replacing etc. and safeguard the required time, improve the operational efficiency of vacuum casting apparatus.

Adopt the vacuum casting apparatus of the present invention's the 5th scheme, because melting furnace is fixed on the inner face side of almost whole the one-sided door of opening that can open and close the melting chamber side, open the one-sided door of opening when safeguarding, melting furnace can be shifted out from melting chamber, thereby easily finish upkeep operation at short notice, to improve the operational efficiency of vacuum casting apparatus.

Adopt the vacuum casting apparatus of the present invention's the 6th scheme, because fixedly being housed, the almost whole face in side of the casting chamber of casting device all forms the maintenance door, therefore, can shorten the removal, repairing, replacing etc. of the spot of casting device in the narrow and small casting chamber and safeguard the required time, thereby improve the operational efficiency of vacuum casting apparatus.

Adopt the vacuum casting apparatus of the present invention's the 7th scheme, casting device can from the lateral opening of casting chamber be arranged on with inserting mobile trolley used on, and casting device is under the insertion state, the cover plate for sealing that lateral opening is installed on mobile trolley used is lived, therefore, though installation cost has risen, the repairing of casting device, replacing operation are oversimplified, also realize vacuum seal during insertion easily, therefore can significantly improve the operational efficiency of vacuum casting apparatus.

Adopt the vacuum casting apparatus of the present invention all directions case, because casting device is single or multiple casting molds, and aforementioned casting mold can be also used as the out-put container of the product of casting, therefore, as the alloy device that contains rare earth element, be the low-cost device that constitutes with elementary factor, in addition, motlten metal can be distinguished the different a plurality of casting molds of function of injecting from melting furnace, thereby can be cast out the different casting product of three-dimensional shape different casting product, cooling velocity simultaneously.

Adopt the vacuum casting apparatus of the present invention's the 9th scheme, because casting mold has the cooling device or the heater of casting product, the cooling velocity in the control casting mold, thus can cast out the different casting product of physical property.

Adopt the vacuum casting apparatus of the present invention's the tenth scheme, casting device is to be that key element constitutes with the cooling armature that horizontally rotates and the lower ring-type mo(u)ld-box of height that is contained in cooling armature neighboring, the lamellar casting product that therefore, can be turned cold gradually.

Adopt the vacuum casting apparatus of the present invention's the 11 scheme, casting device is to be that key element constitutes with horizontal coldplate and the slide cast case that is placed on movably above it, and therefore, motlten metal can accumulate in the molding box, and the thick plate-like that is turned cold is gradually cast product.

Adopt the vacuum casting apparatus of the present invention's the 12 scheme, casting device is that the chill roll with rotation at a high speed is that key element constitutes, and therefore, can obtain the laminar casting product of chilling.

Adopt the vacuum casting apparatus of the present invention's the 13 scheme, because second separating mechanism that is located in the second airtight path forms the clack valve or second gate valve that opens and closes the end of reclaiming the indoor second airtight passage downstream side, therefore, second separating mechanism is provided with easily, and can form vacuum seal than reclaiming the high casting chamber of chamber pressure and reclaiming between the chamber really.

Adopt the vacuum casting apparatus of the present invention's the tenth cubic case, returnable is made of lid and main body, reclaim the indoor switching mechanism that is provided with the lid that opens and closes returnable, lid from the outside with returnable inserts the opening that reclaims the chamber with the main body upper end, and couples together, therefore, the indoor lid of opening returnable of recovery under vacuum, accommodate the casting product, from reclaim the chamber, take out again after the closing cap, do not accommodate, be kept in the returnable thereby the casting product can not be exposed to the open air under atmosphere.

Adopt the vacuum casting apparatus of the present invention's the 15 scheme, because returnable has cooling device or heater, therefore, can under being housed in state in the returnable, cool off the product of will casting, even under casting product are being contained in state in the returnable, contact the temperature that atmosphere can oxidation yet, in addition it, in the segregation alloy during special component, can in returnable, heat, make special component diffusion, reach and homogenize.

Claims (6)

1. vacuum casting apparatus, described vacuum casting apparatus is made of melting chamber, casting chamber and recovery chamber, and described melting chamber is provided with melting furnace, and this melting furnace melts the alloy materials that contains rare earth element under vacuum or in the inert gas medium; Described casting chamber is provided with casting device, this casting device carries out the poured with molten metal of described alloy chilling and forms laminar casting product to the chill roll that rotates at a high speed in vacuum or inert gas medium, described recovery chamber is provided with returnable, and this returnable is used to accommodate, exports described laminar casting product; It is characterized in that:

Described melting chamber is connected by the first airtight path with described casting chamber, and the described first airtight path is provided with the two which height of vacuum of described melting chamber and described casting chamber all can vacuum-packed gate valve; Described gate valve is opened when casting, and is used for motlten metal is inserted into the described first airtight path from the water guide tubulose circulator that described melting furnace stream supplies to described casting device;

Described casting chamber is connected at above-below direction by the second airtight path with described recovery chamber, described recovery chamber is provided with the clack valve that the bottom of the described second airtight path is opened and closed at the top of inside, the upper end of returnable with cover is inserted into the bottom opening that is positioned at the described second airtight path below with described lid, install from the outside dismantledly and airtightly, described lid opens and closes under vacuum or in the inert gas medium by being located at the indoor lid switching mechanism of described recovery.

2. vacuum casting apparatus as claimed in claim 1 is characterized in that: described gate valve comprises the valve plate and the block of the valve plate of described melting chamber side, described casting chamber side;

Up and down two connecting rod of the valve plate of described melting chamber side by described melting chamber side opens and closes airtightly to the peristome of the described first airtight path of described melting chamber side, described connecting rod by from be fixed on valve body above cylinder two pins up and down of being inserted into the bottom of the bar in the described valve body airtightly be rotatably mounted;

The valve plate of described casting chamber side, two connecting rods up and down by the described casting chamber side that is being rotatably mounted by described up and down two pins open and close airtightly to the peristome of the described first airtight path of described casting chamber side;

Described block makes two described valve plates that descend with described bar stop at the position of regulation respectively.

3. vacuum casting apparatus as claimed in claim 1 is characterized in that: described melting furnace is fixed in the described melting chamber, and the almost whole face of the side of described melting chamber forms to be safeguarded with door.

4. vacuum casting apparatus as claimed in claim 1, it is characterized in that: be installed to from the outside under the bottom opening of described recovery chamber and the state that described lid is opened in described returnable with cover, the sealing guide plate of tubular is between the indoor opening that is moved to the described second airtight path lower end and described returnable from position of readiness of described recovery, it is indoor that the cast tablets of making in described casting chamber is fallen described recovery by described sealing guide plate guiding, when described cast tablets manufacturing was finished, described sealing guide plate turned back to described position of readiness.

5. vacuum casting apparatus as claimed in claim 1, it is characterized in that: described chill roll can from the lateral opening of described casting chamber to inside be arranged on with inserting mobile trolley used on, under the state in described chill roll is inserted into described casting chamber, described lateral opening is installed in described cover plate for sealing on mobile trolley used and lives.

6. vacuum casting apparatus as claimed in claim 1 is characterized in that: described returnable with cover is provided with the water jacket of refrigerant or heating agent.

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