HUP0101574A2 - Method and device for the directional, abrupt cooling of light metal castings in a fluid - Google Patents

Description

PUBLICATION ?O1O1S^H

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Method and apparatus for controlled rapid cooling of light metal castings in a liquid bath

The invention relates to a method and apparatus for controlled rapid cooling of light metal castings in a liquid bath. Rapid cooling of castings in a liquid bath is a known element of the heat treatment of both ferrous metals and non-ferrous and light metals [non-ferrous metals]. Both immersing the castings in a water bath or oil bath and showering with water are known for this purpose. In addition, cooling of castings in an air stream is also used. In the case of a liquid or gaseous coolant, different cooling rates can be achieved depending on different heat transfer, free convection or forced flow, and on the heat capacity of the coolant and the thermal conductivity of the metal, in order to create specific structural forms in the casting with different layer thicknesses.

JP 62-202019 A discloses an apparatus comprising a liquid container. Gas lines are introduced into the liquid container above its rim, which serve to supply loop-shaped, horizontal gas discharge lines. The parts to be hardened are lowered into the liquid container by means of a carrying device when gas is already escaping from the gas discharge lines.

Patent document SU 1 574 648 Al discloses an apparatus comprising a liquid container. A pressure gas line opens into the side wall of the container, to which an injector is connected, which creates a cooling flow enriched with gas bubbles inside the container. The parts to be hardened are lowered into the liquid by a gripping device.

The object of our invention is to further develop the method and the apparatus so that the quenching process can be better controlled.

This problem is solved according to the invention with regard to the method - during which a gas bubble stream flows from below onto the castings in the liquid bath at least occasionally - by creating the gas bubbles of the gas bubble stream in situ at the bottom of the liquid bath.

The object is achieved according to the invention in the device, which comprises a pool filled with liquid, which pool is provided with at least one inlet and one outlet, and a gas blowing generator, in that the gas blowing generator comprises at least one air inlet chamber at the bottom of the pool, which is provided with a cover, in which there are a number of gas outlet openings. The gas bubbles are evenly distributed in situ, as the bottom of the liquid bath. The castings can advantageously be positioned at a certain distance above the zone of formation of the gas bubbles. The liquid bath can then be a water bath, and the gas bubble stream can consist of air bubbles. While immersing the castings in the liquid bath after preheating the castings to a certain starting temperature can result in the known cooling curves, the addition of a gas bubble stream according to the invention can significantly reduce or enhance the cooling rate. By setting and regulating the gas bubble flow, it is primarily ensured that the temperature does not fall prematurely below the specified transformation temperatures of the tissue structure. The gas bubble flow does not have to be generated during the entire quenching process, but is stopped before the castings are finally removed from the liquid bath.

The gas bubble generator according to the invention may comprise at least one air inlet chamber at the bottom of the pool, which is provided with a cover and in which there are a number of gas outlet openings. The cover may be formed by a porous plate which, when there is an overpressure in the air inlet chamber, emits a stream of gas bubbles upwards in an evenly distributed manner. The porous plate may consist, for example, of open metal foam, porous ceramic or shrinkable metal. Alternatively, the cover of the air inlet chamber may consist of wire mesh. It is fundamentally advantageous if it is possible to avoid the flow of liquid into the air inlet chamber. Since this is not always possible, a liquid drain opening is provided in the air inlet chamber. The air inlet chamber should comprise pressure control means for regulating or adjusting the flow of gas bubbles. The uniform air inlet chamber can be replaced by individual channels or ducts with individual nozzle heads on the bottom of the basin, which are provided with a number of gas outlet openings.

Above the lid of the air inlet chamber, the basin may have a support bottom for depositing the castings, which should have relatively large through-openings to allow the flow of gas bubbles to pass through.

Liquid introduced through an inlet can be fed into the circuit and cooled down. It is also possible to simply drain off the overflow and use it in other processes.

Our invention is described in more detail in connection with its exemplary embodiment with the help of our drawings, of which:

Figure 1. Vertical section of a pool filled with liquid, the

Figure 2 is a top view of the pool of Figure 1.

Figure 1 shows a rectangular basin 11 having an upper opening 12 and a bottom 15. A lid 13 is inserted at a certain distance above the bottom 15, which closes an air inlet chamber 14. The lid is formed by a porous plate in which there are a number of gas outlet openings. The lid 13 rests on the cabinet profiles 21 placed on the bottom 15 all around. A support bottom 22 is provided at a certain distance above the lid 13 for placing the castings. Above the lid 13, the basin 11 is filled with a quenching liquid 16, in which gas bubbles 17 rising from the air inlet chamber 14 through the porous lid 13 rise. The basin 11 has a closable water inlet opening 18 below the support bottom 22 and a closable water outlet opening 19 near the upper opening 12 of the basin 11. Above the support bottom 22 there is a further water inlet opening 24 and a further water outlet opening 25, so that a constant water flow is possible during the quenching process. The air inlet chamber 14 is provided with a compressed air connection 20. A water outlet opening 23 leads from the air inlet chamber 14 below.

Figure 2 shows a top view of the basin 11 with the support base 22 inserted therein, the water inlet opening 18, 24 and the water outlet opening 19, 25 for the quenching liquid, as well as the compressed air connection 20. The surrounding cabinet profile 21 is also visible.

Claims (12)

PATENT CLAIMS 1. Method for the controlled sudden cooling of light metal castings in a liquid bath, during which a gas bubble stream flows from below onto the castings in the liquid bath at least occasionally, characterized in that the gas bubbles of the gas bubble stream are created in situ at the bottom of the liquid bath. 2. The method according to claim 1, characterized in that gas bubbles are created in an evenly distributed manner at the bottom of the liquid bath. 3. The method according to claim 1 or 2, characterized in that the castings are placed at a certain distance above the zone of formation of gas bubbles. 4. The method according to any one of claims 1-3, characterized in that the liquid bath is pumped through and cooled back in a cycle. 5. The method according to any one of claims 1-3, characterized in that new liquid is constantly introduced into the liquid bath at the bottom and the overflowing liquid quantities are constantly drained. 6. The method according to any one of claims 1-5, characterized in that the gas bubble flow is started before the castings are completely immersed in the liquid bath. 7. The method according to any one of claims 1-6, characterized in that the gas bubble flow is stopped before the final removal of the castings from the liquid bath. 8. Apparatus for controlled quenching of light metal castings in a liquid bath, the apparatus comprising a basin (11) filled with liquid, said basin being provided with at least one water inlet (18) and a water outlet (19), and a gas bubble generator, characterised in that the gas bubble generator comprises at least one air inlet chamber (14) at the bottom of the basin (11), which is provided with a cover (13), and the cover has a number of gas outlet openings. 9. Apparatus according to claim 8, characterized in that a support base (22) for depositing the castings is provided above the cover (13) or the water inlet opening (18) provided with the injector system. 10. Device according to claim 8 or 9, characterized in that the cover (13) is formed by a porous sheet, which is preferably made of open metal foam, porous ceramic or shrinkable metal. 11. Device according to claim 8 or 9, characterized in that the cover (13) consists of a wire mesh element. 12. Apparatus according to any one of claims 8-11, characterized in that pressure control means are provided in one of the connections (compressed air connection 20) of the air inlet chamber (14) for adjusting or regulating the gas bubble flow. The authorized person Butcher Member of SíafeKí H-1062 BudafíSJ·) Aiidrássy út 113. Phone: 34-24-950, Fax: 34-24-323 Ka SPREADER