SU554067A1 - Kokil - Google Patents

Description

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The invention relates to foundry, in particular, to the construction of chill molds.

A chill mold is known that contains rotatable metal rods, which are sharpened on axes fixed in one of the half-molds kkil 1. The castings are removed from such a chill mold by pushing them through the chill mold directly into the outer surface of the casting or tides.

The disadvantage of the known chill mold is its low working capacity due to jamming of the pushers and the height of the jacks under the pushers. In addition, the presence of pushers that pass through the surface of the chill mold, which forms the casting, impairs the quality of the surface of the casting, TaiK as traces of the pushers are inevitable.

The purpose of the invention is to increase the reliability of work, simplify the design of the chill mold, improve the quality of castings, prevent leakage of liquid melt when pouring chill mold due to wear of the wedge wiping surfaces and the bottom bar surface interacting with it. This is achieved by the fact that the chill mold is equipped with a 1 drive for moving the rods along the axes, acting on the sign parts of the rods, an adjustable stop interacting with the power lug of the other Rod in the rods, and the movable half-form contains supports

sliding the axes of both rods and a wedge, fixing the position of the lower rod during the assembly of the mold.

In addition, the axle support parts are equipped with

stops, and in the slide supports, the movable half-forms against the stops are through grooves. The wedge is installed in the movable half-form into the sleeve, sleep is blunt along the outer and inner surfaces of the threads of different

step, and the movable half-form contains guide planes that interact with the wedge.

FIG. 1 shows C0; a closed die; in fig. 2 - the same, section on metal

swivel rod; in fig. 3 - section along the wedge.

The chill contains a movable half-mold 1 and a fixed half-shape 2, a side rod 3 and a bottom rod 4, mounted

hinged on the axes x 5 and 6, fixed in the fixed mold 2, perpendicular to the plane of the chill joint connector 7, and interacting with the supports 8 and 9 of the sliding of the movable mold 1.

The side rod 3 is connected to the actuators 10 and the 3 | Attraction rod 15 and interacts with the power protrusion 11 of the projection 11 with an adjustable stop 12, the position of which in the lower rod 4 is determined by the thread 13 and fixed by the lock nuts 14 and 15.

The lower rod 4 in the assembled position "the oxide interacts with the wedge 16, and disassembled with the stop 17 of the fixed half-form 2. The position of the wedge 16 is adjusted by the sleeve 18 and fixed by the lock nut 19. Against the rotation The adjustment wedge 16 is held 1 in under floor semi form 1 ..

The movement of the rods 3 and 4 perpendicular to the plane of the connector 7 of the chill mold is carried out by the drive 21 of the movement of the rods. The wear of the wedge 16, which is formed during operation, or that of the bottom surface of the lower rod 4, is removed by adjusting the position of the wedge 16.

On the supporting parts 22 of the axles 5 and 6 there are stops 23, and in the supports 8 and 9 of the slide of the movable half-form 1 - through grooves 24, located opposite the stops 23 and not interfering with their interaction with the ends 25 of the rods 3 and 4.

Kokil works as follows.

After solidification of the casting 26, the movable half-form 1 moves, and the wedge 16 releases the lower rod 4. The supporting parts 22 of the axes 5 and 6 do not come out of engagement with the supports 8 and 9 of the slip, which characterizes the rigidity of the structure. The drive 21 for moving the rods moves the side and bottom rods 3 and 4 away with the PRINCIPLE 26 clamping them down until the casting is completely removed from the fixed half of the mold 2.

The rod extraction actuator 10 rotates the side rod 3 at 1 angle, which, acting on the adjustable protrusion 11 on the adjustable stop 12 of the lower rod 4, simultaneously undermines the latter. The force interaction of the rods 3, 4 and casting 26 provides complete extraction of the rods.

The presence of the stop 17, which protrudes beyond the fixed half-form 2, pushes the movement of the lower rod 4 under the action of its own weight, ensuring its interaction with the wedge 16 during the assembly of the chill mold. After the rods 3 and 4 have been opened, the casting 26 is removed and the rod displacement 21 is returned to its original position.

To assemble the side molds, the rod 3 is returned by the drive 10 for extracting the rods to their original position, the movable mold 1 is closed in reverse to the mold, moving the rods 3. And 4 over 1M 5 and 6, pressing the bottom rod 4 of the Kli 16 at the end of the stroke.

In the case of the donkey, the casting 26 remains in the movable mold 1, it moves along with the mold, dragging the rods 3 and 4 until the ends of the 25 rods

interact with the stops 23, which stop further movement of the rods, which, in turn, completely remove the mold 26 from the movable half-form 1 at the end of its stroke.

The presence of movement of the rods along the axes makes it possible to eliminate the use of pushers in semi-molds, which improves the surface quality of the castings. The drive for the movement of rods, in contrast to vytil1K | ivateli, does not interact with the fixed half-form, which eliminates coping, jamming and wear of the pushing elements.

Due to the use of rotating metal rods, the depth of the working nests in the half-molds is reduced by shch.irinu rods, which greatly improves the working conditions of the half-molds of the mold. Using one drive to remove two rods simplifies

the design also increases its reliability, and the use of an adjustable wedge allows to quickly eliminate metal leaks in case of their occurrence. The use of stops, interacting with the ends of the rods, and includes the use of pushers in the moving form of molds.

Claims (3)

1. A chill mold containing movable and fixed half-molds, tank and bottom metal rods mounted hinged on the axes fixed in the fixed half-form perpendicular to. plane connector, and a rod extraction actuator, characterized in that, in order to increase reliability and improve the quality of the casting surface, it is provided with a rod displacement drive along axes, in one of of the rods — an adjustable stop is complete; in the other, a power projection interacting with each other, and the movable half-form is provided with sliding supports for the axes of both rods and a locking wedge. 2. A chill mold in accordance with claim 1, wherein that the bearings of the axles are provided with stops, and in sliding bearings of the mobile half-form through grooves are made against the stops. 3. A chill mold in accordance with claim 1, wherein that the fixing wedge is fixed in a movable half-form, made with the front, being planes, by means of a sleeve with threads of a different schag on the outer and inner surfaces. , Source of information taken into account (In the examination: 1. Reference manual N. P. Dubinin and others, “Chill casting, Mashinostroenie, M., 1967, p. 228.