SU1340893A1 - Apparatus for cooling the internal space of castings in moulds - Google Patents

Abstract

The invention relates to foundry, in particular, to equipment for accelerated cooling of castings in casting molds, and can be used in the preparation of cast iron molds with a hollow central core. The purpose of the invention is to self-regulate the supply of cooling water and improve heat exchange in the cavity of the casting. The device includes a housing 1 of the heat exchange chamber with a grounded support flange 2 and an inlet pipe 4 and a discharge pipe 5 integrated in the bottom. A cap 6 of the evaporation chamber with openings 7 is screwed on the upper end of the body I. The upper end of the housing 1 is equipped with a spray gun 8, made in the form of a connecting insert with a spreading nozzle, a tapered shank, blind longitudinal and through transverse channels extending onto the conical surface of the shank, which is in contact with the sleeve 12 attached to the end of the supply pipe 4. The device is installed on a parade ground or a special stand, which allows a self-regulating process to accelerate the cooling of castings of casting molds and shorten the manufacturing cycle by 20-25%. 5 il. (L 00 4 O00 co oo (ft (/

Description

The invention relates to foundry, in particular, to equipment for accelerated cooling of castings in casting molds, and can be used in irradiating cast-iron molds with a hollow central core.

The purpose of the invention is to self-regulate the supply of cooling water and improve the evaporation of heat exchange in the casting cavity by means of the nozzle 9.

: FIG. 1 shows the structure of the device; in fig. 2 is a diagram of its placement in a mold of a deaf-mold; in fig. 3 - node I in FIG. 1; in fig. 4 - node II in FIG. 1 (in the Closed position 7; in FIG. 5 the same in the Open position.

The device includes a housing 1 of the heat exchange chamber with a supporting flange 2, through holes 3 in the upper part and the inlet pipe 4 and the outlet pipe 5 installed at the bottom. A cap 6 of the evaporation chamber with through holes 7 dl is screwed on the upper end of the case steam penetration; In the upper end of the housing 1, a sprayer 8, made in the form of a connecting insert with a spray nozzle 9, with a 1-shaft and a long blind 10 and through 11 transverse channels, is embedded on the thread that shank. The conical shank of the atomizer contacts along the generatrix of the conical surface with the sleeve 12 attached to the end of the supply pipe 4.

15

20

25

thirty

35

The solid chamber and evaporates with the formation of steam, which escapes through the openings 7 of the cap 6 into the cavity of the casting 14 and, penetrating to the walls of the casting, oxidizes its inner surface. Another part of the water enters the heat exchange chamber and cools its walls.

The overpressure of steam in the cavity of the casting is discharged due to the removal of steam through the openings 3 in the housing 1, where it partially or completely condenses and then is discharged to the drainage system of the workshop through the outlet pipe

The regulation of the amount of cooling water and, accordingly, the casting cooling process, is carried out by changing the gap between the liner shank 8 and the sleeve 12 of the supply pipe 4, which occurs synchronously with the change in cooling intensity and temperature of the housing 1 and the tag exchange between the walls of the cavity and the housing 1.

After the end of the forced cooling, the mold 13 with the casting 14 is removed to the embossing, and the housing 1 is heated. The device is installed on the transfer chamber Q is cooled rapidly or on a special stand. The temperature of the inlet pipe 4 ,.

The device operates as follows, as a result of which the gap between the spray (cooling option in the casting engine 8 and the sleeve 12 of the inlet mold of the mold mold) of the pipe 4 is selected, the water supply to

After the solidification of the casting is complete, the device spontaneously terminates the metal cartridge and the mold 13 with the casting 14 from the central rod, is installed to cool above the device so that a large part of the housing 1 is in the cavity of the rod. From this moment on, due to intensive heat exchange between the hot the walls of the internal cavity and the housing 1 of the heat exchange chamber

the hull is heated up, as the oxide coating is gg of the casting. For which it is lengthened, At the same time as the self-regulating accelerated m is cooled by water, the supply to the pipe-cooling of the internal cavity of the casting 4 with the sleeve 12 fixed to it in the mold is reduced by

20-25% cycle of their manufacture.

practically does not heat up and its length remains unchanged. As a result, a gap is formed between the shank of the driver 8 and the sleeve 12. Through this gap, one part of the cooling water under pressure in the supply pipe 4 flows through the transverse holes I1 into the longitudinal channel 10 of the atomizer 8, with

0

five

0

five

The solid chamber and evaporates with the formation of steam, which escapes through the openings 7 of the cap 6 into the cavity of the casting 14 and, penetrating to the walls of the casting, oxidizes its inner surface. Another part of the water enters the heat exchange chamber and cools its walls.

The overpressure of steam in the cavity of the casting is discharged due to the removal of steam through the openings 3 in the housing 1, where it partially or completely condenses and then is discharged to the drainage system of the workshop through the outlet pipe

The regulation of the amount of cooling water and, accordingly, the casting cooling process, is carried out by changing the gap between the liner shank 8 and the sleeve 12 of the supply pipe 4, which occurs synchronously with the change in cooling intensity and temperature of the housing 1 and the tag exchange between the walls of the cavity and the housing 1.

and the cycle of the device ends,

Thus, the use of the proposed device for cooling the internal cavities of castings allows a self-regulating process of accelerated cooling of castings into casting molds, and in necessary cases, to obtain a cycle of their production on top of 20-25%.

Claims (1)

Invention Formula A device for cooling the internal W-1X cavities of castings in casting molds, predominantly molds, containing a heat exchange chamber, a cooling water sprayer, an inlet pipe with an end sleeve, and a discharge pipe. Characterized in that, in order to self-regulate the supply of cooling water and improve heat exchange in the cavity of the casting, it is equipped with an evaporation chamber, you complete in the form of a cap with through holes fixed on top of the heat exchange chamber, and the cooling water sprayer in the form of a connecting insert with a spray nozzle, a conical shank and through channels extending to a conical surface, and embedded in the upper part of the heat exchanger chamber with interoperability along a generatrix of a conical surface with an end bushing of an inlet pipe. f3 FIG. 2 Water Phi2.5