CN202824563U - Heat generating agent charging bucket for ingoting and vacuum pouring and vacuum chamber for pouring - Google Patents

Abstract

The utility model provides a heat generating agent charging bucket for ingoting and vacuum pouring and a vacuum chamber for pouring, aiming at solving the problems that a heat generating agent charging device is low in ingoting yield, and non-ideal in heat generating agent charging effect when the vacuum pouring is implemented in the prior art. A material charging bucket is provided with a barrel body of with the bottom provided with a base plate door which is downwards overturned, and the base plate door is closed by a hot melting component; and the vacuum chamber comprises an ingot mould, an ingot mould moving device and a crucible arranged in a cavity of the vacuum chamber, a charging bucket fixing device is arranged in the space which is formed in the cavity and is staggered from the ingot mould, the charging bucket is arranged in the cavity by the charging bucket fixing device, and the ingot mould moving device drives the ingot mould to move in a reciprocating way between the right underneath of the crucible and the right underneath of the charging bucket. Due to the adoption of the charging bucket and the vacuum chamber with the structure, the heat generating agent charging bucket is high in ingoting yield, and the effect of the heat generating agent can be extremely played.

Description

The used exothermic mixture charging bucket of ingot casting vacuum pouring and cast vacuum chamber

Technical field

The utility model relates to the used exothermic mixture charging bucket of a kind of ingot casting vacuum pouring and vacuum chamber is used in cast, particularly relates to the used exothermic mixture charging bucket of vacuum pouring and the cast vacuum chamber of corrosion resistant alloy.

Background technology

When molten steel is carried out vacuum pouring, when molten steel is poured, need in rising head, to add exothermic mixture, prevent ingot casting rising head premature solidification, strengthen the feeding effect of rising head.At present, generally the method for employing is, after molten steel is poured in the ingot mould from crucible, namely opens vacuum chamber, and ingot mould is shifted out in vacuum chamber, pours exothermic mixture into again in rising head.About about 5 minutes of this process, when the ingot casting volume ratio hour, as when pouring into a mould ingot casting below 10 tons, because the ingot casting volume is little, the ratio of the heat loss at ingot casting rising head top is very fast, and when adding exothermic mixture in ingot mould, molten steel has solidified crust, if add exothermic mixture this moment in the molten steel that solidifies crust, exothermic mixture can not play its due effect.In order to make exothermic mixture bring into play its effect, common way is that the part that has solidified at the rising head top is melted with electric welding, and then whole barrel pours exothermic mixture in ingot casting, or manually exothermic mixture is shoveled in the ingot mould rising head with scoop.Adopt said method and device to add exothermic mixture, have following shortcoming: 1, complicated, the complex operation of equipment.Need a series of equipment such as electric welding machine, carry out cutting operation.2, work under bad environment, waste of material are serious.This moment, mold temperature was generally about 500 ℃, operative employee's working environment very severe.3, add the required time of exothermic mixture long, efficient is low, it is undesirable that exothermic mixture adds effect.

The utility model content

The purpose of this utility model is, for prior art when carrying out vacuum pouring, the method and the device that add exothermic mixture make the ingot casting lumber recovery low, the undesirable deficiency of effect that adds exothermic mixture provides a kind of ingot casting lumber recovery high and can greatly bring into play the used exothermic mixture charging bucket of ingot casting vacuum pouring and the cast vacuum chamber of exothermic mixture effect.

The purpose of this utility model is achieved through the following technical solutions:

First purpose of the present utility model is, provides a kind of vacuum pouring used exothermic mixture charging bucket, comprises cylindrical shell, described cylinder body bottom is provided with the base plate door of downward upset, described base plate door is closed by the hot melt element, and described hot melt element melted by heat is opened described base plate door;

Described base plate door and/or described cylinder body bottom are provided with lacing hole, and described hot melt element is the hot melt rope, and described hot melt rope passes described lacing hole and forms the knot reed, and described base plate door is closed;

Described base plate door is two, semicircular in shape.

Second purpose of the present utility model is, a kind of cast vacuum chamber is provided, comprise the vacuum chamber chamber, be provided with ingot mould, ingot mould mobile device and crucible in the described vacuum chamber chamber, the spatial placement that staggers with described ingot mould in the described chamber has the charging bucket fixture, described charging bucket is arranged in the described chamber by described charging bucket fixture, described ingot mould mobile device drive described ingot mould under the described crucible and described charging bucket under between move back and forth;

Described ingot mould mobile device is travelling car, and described ingot mould is arranged on the described travelling car.

Adopt the charging bucket of the utility model example structure, because being arranged on the base plate door of charging bucket below is closed by the hot melt element, when ingot mould moves to the charging bucket below, the hot melt element melts under the effect of the heat that ingot mould and molten metal give out, the base plate door opens wide, exothermic mixture joins in the rising head in charging bucket, so ingot mould need not to shift out in vacuum chamber, reduced the stand-by period that adds exothermic mixture in the rising head, rising head does not solidify in the operation that adds exothermic mixture, need not to cut the rising head that solidifies, also need not the operative employee and add exothermic mixture near ingot mould, improved workman's operating environment.

Adopt the vacuum chamber of the utility model example structure, owing to be provided with charging bucket in the vacuum chamber, charging bucket is positioned at outside the shared space of ingot mould, and be provided with the mobile device of ingot mould at vacuum chamber, so ingot mould need not out vacuum chamber when adding exothermic mixture, can realize that rising head adds exothermic mixture fast without condensing, can reduce the weight ratio that rising head accounts for ingot casting, improve the lumber recovery of ingot casting.

Adopt charging bucket of the present utility model and vacuum chamber, can improve vacuum casting method, realization is poured to the vacuum chamber vacuum breaker in ingot mould, in vacuum chamber, in rising head, add exothermic mixture immediately, vacuum pouring step and the time interval that adds between the exothermic mixture step are short, be generally about 20 seconds, so rising head can be because of cooled and solidified, not only saved the operation of cutting rising head, and can reduce the ratio that the ingot casting rising head accounts for ingot casting, the ratio (hereinafter referred to as the rising head ratio) that the ingot casting rising head accounts for whole ingot casting weight reduces to 8～12% by original 16-20%, has improved the lumber recovery of ingot casting.Owing to add exothermic mixture in the not solidified situation of ingot casting, the usefulness performance of exothermic mixture has fully improved the lumber recovery of steel simultaneously.

Description of drawings

Fig. 1 is the utility model exothermic mixture charging bucket example structure schematic diagram;

Fig. 2 is that the A of Fig. 1 is to view;

Fig. 3 is the utility model vacuum chamber example structure schematic diagram;

Fig. 4 is working state schematic representation when adding exothermic mixture with the utility model example structure charging bucket.

Description of reference numerals

1-cylindrical shell 2-exothermic mixture 3-fixed head 4-door-hinge 5-base plate door 6-connector 7-crucible 8-charging bucket 9-hot melt rope 10-ingot mould 11-ingot mould mobile device 12-rising head

The specific embodiment

Below in conjunction with drawings and Examples the utility model is done further description:

Such as Fig. 1-shown in Figure 4, the exothermic mixture charging bucket of the utility model example structure comprises that the bottom of cylindrical shell 1, cylindrical shell 1 is provided with base plate door 5, base plate door 5 is rotationally connected by door-hinge 4 and cylindrical shell 1, is provided with connector 6 at base plate door 5, and connector 6 can close base plate door 5 with 9 combinations of hot melt rope.For exothermic mixture 2 goes out the smooth and easy and conserve space of cylindrical shell from the base plate door, the base plate door can be arranged to a plurality of, and such as two, four, eight etc., when cylindrical shell 1 was cylinder, at this moment, base plate door 5 was semicircle, quadrant shape, 1/8th circles etc.Connector on each base plate door is arranged on the bottom centre position of cylindrical shell, makes things convenient for like this hot melt rope to connect.For convenient fixedly charging bucket, be provided with fixed head 3 at the outer wall of charging bucket cylindrical shell 1.Preferably, the base plate door is semicircle, is fixedly connected with two door-hinges 4 in the bottom of cylindrical shell 1 symmetry, nut is weldingly fixed on the arc tips of base plate door 5 as connector, door-hinge 4 is connected with nut rotation, and aperture ratio door-hinge 4 sizes of nut are bigger, can guarantee that the base plate door rotates freely.On the straight flange of base plate door 5, being welded with respectively a wire rope handling nut as connector 6, is that the hot melt rope is arranged in the wire rope handling nut bore, and two base plate doors are closed.Door-hinge is made by thin metal bar, and door-hinge is welded on the cylindrical shell.In actual applications, preferred asbestos cord is as the hot melt rope.

Cast vacuum chamber of the present utility model comprises the vacuum chamber chamber, is provided with the space that holds ingot mould 10 in chamber, and crucible 7 is fixed on the top of ingot mould 10.Be provided with the space that holds charging bucket 8 in holding in the space outside the ingot mould of described chamber, be provided with ingot mould mobile device 11 in vacuum chamber, ingot mould mobile device 11 can move to ingot mould the below of charging bucket from the crucible below after being poured.Be provided with the fixedly fixture of charging bucket in the relevant position of chamber, charging bucket is fixed in the chamber by this fixture.Ingot mould mobile device 11 can be arranged on the travelling car in the vacuum chamber, and the model of producing such as Suzhou Zhenwu Electric Stove Co., Ltd is just to be provided with this ingot mould mobile device 11 in the vacuum chamber of 2 tons of vacuum medium frequency induction furnaces of ZG-2000.

The course of work is as follows, and base plate door 5 usefulness asbestos cords are fastened, and the base plate door is closed; The exothermic mixture of whole bag is placed in the charging bucket, charging bucket is put in the chamber is fixed; In crucible, raw material is carried out vacuum melting, the molten white silk of raw material in crucible is complete, be poured in the ingot mould, give vacuum chamber vacuum breaker 15-20 about second after being poured, vacuum chamber pressure is about 8000-12000Pa, with ingot mould move to charging bucket under, the asbestos cord that high temperature will tie down the base plate door melts, the base plate door is opened, and exothermic mixture is entered the rising head 12 of steel ingot smoothly by the bottom of cylindrical shell 1.The process of above-mentioned adding exothermic mixture only needs 30 seconds exothermic mixtures just join ingot casting rising head top, and this moment, rising head did not also solidify crust, so but the exothermic mixture direct effect to the rising head of ingot casting, greatly bring into play the effect of exothermic mixture.In addition, because ingot mould need not to shift out in this process, need not manually to add exothermic mixture in vacuum chamber, improved workman's working environment, and method of operating is simple, the operating time short.

Adopt said method to add exothermic mixture, ingot casting rising head ratio is reduced to about 10% by original 16～22, greatly improved the lumber recovery of ingot casting.Method of the present utility model is to adopt in 10 tons the time effect can be more remarkable in ingot casting weight.

2 tons on the ingot casting of embodiment 1 cast, material is N04400, exothermic mixture is carbon-free type exothermic mixture.

Carry out as follows vacuum pouring: fasten the base plate door 5 of charging bucket 8 with asbestos cord, base plate door 5 is closed; The exothermic mixture of whole bag is placed in the charging bucket 8, charging bucket is put in the chamber of vacuum chamber and fixed; In crucible 7, raw material is carried out vacuum melting, the molten white silk of raw material in crucible is complete, be poured in the ingot mould 10, gave the vacuum chamber vacuum breaker 20 seconds after being poured, vacuum chamber pressure reached about 10000Pa, with ingot mould 10 move to charging bucket 8 under, the asbestos cord that the high temperature of ingot mould itself will tie down base plate door 5 melts, base plate door 5 is opened, and exothermic mixture 2 enters the rising head 12 of steel ingot smoothly by the bottom of cylindrical shell 1, and the rising head ratio that obtains ingot casting is 8%.

0.2 ton on embodiment 2 ingot castings, material is N04400, exothermic mixture is carbon-free type, exothermic mixture vacuum breaker chamber 15 seconds, all the other are with embodiment 1.The ingot casting rising head ratio that obtains is 12%.

10 tons on embodiment 3 ingot castings, material is N04400, exothermic mixture is carbon-free type, exothermic mixture vacuum breaker chamber 20 seconds, all the other are with embodiment 1.The ingot casting rising head ratio that obtains is 10%.

Table 1: adopt the utility model method to carry out vacuum pressing and casting and adopt commonsense method to carry out vacuum pressing and casting to compare, the ingot casting rising head accounts for ingot casting weight ratio contrast table:

Claims (5)

1. used exothermic mixture charging bucket of ingot casting vacuum pouring, comprise cylindrical shell (1), it is characterized in that, described cylindrical shell (1) bottom is provided with the base plate door (5) of downward upset, described base plate door (5) is closed by the hot melt element, described hot melt element melted by heat is opened described base plate door (5).

2. charging bucket as claimed in claim 1, it is characterized in that described base plate door (5) and/or described cylindrical shell (1) bottom are provided with lacing hole, described hot melt element is the hot melt rope, described hot melt rope passes described lacing hole and forms the knot reed, and described base plate door is closed.

3. charging bucket as claimed in claim 1 or 2 is characterized in that, described base plate door is two, semicircular in shape.

4. cast vacuum chamber, comprise the vacuum chamber chamber, it is characterized in that, be provided with ingot mould (10), ingot mould mobile device (11) and crucible (7) in the described vacuum chamber chamber, the spatial placement that staggers with described ingot mould (10) in the described chamber has the charging bucket fixture, described charging bucket (8) is arranged in the described chamber by described charging bucket fixture, described ingot mould mobile device drive described ingot mould (10) under the described crucible (7) and described charging bucket (8) under between move back and forth.

5. cast vacuum chamber as claimed in claim 4 is characterized in that, described ingot mould mobile device (11) is travelling car, and described ingot mould (10) is arranged on the described travelling car.

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