SU1533817A1 - Compacting mechanism - Google Patents

Abstract

The invention relates to the field of foundry, in particular to pulsed molding machines. The aim of the invention is to improve the quality of the molding sand. When the distributor 11 communicates with the atmosphere, the spherical part 5 of valve 4 is in an intermediate position. When this valve 11 includes a vacuum pump and the valve 4 occupies the upper position. After the mold is sealed, the vacuum pump is turned off, and compressed air is supplied to the opening 10. Valve 4 is lowered onto seat 6. Compressed air is supplied to port 12. The invention makes it possible to significantly increase the valve opening speed. 1 il.

Description

The invention relates to foundry, in particular to equipment for the manufacture of foundry molds by the pulse method of low pressure, and can be used in trimming machines.

The purpose of the invention is to improve the quality of compaction of the molding sand,

The drawing shows the design \ n the proposed impulse words and indicates the necessary aspect ratio of the structure.

The pulse head is installed from housing 1 with receiver 2 and release.! th open-th verst 3, shut off valve 4, toroidal extreme part 5 kotors .....

gc is located outside the saddle 6 of the hole 3. Above the valve 4 there is a cavity of the prechamber with a spherical? () arch 8 to them and a side toroidal wall 7. The lower chamber communicates with the receiver 7 with an annular hole 9 ,. which in the initial position is blocked by a toroidal 25 part 5. In addition, by means of the hole 10 and the air distributor 11. the pre-chamber is connected to the atmosphere by a vacuum pump and a compressed air line through an opening! 2, jq

The pulse head operates as follows,

In the receiver 2, placed in the corpus. All 1, through the hole 12 is supplied <compressed air from the line. At the same time, compressed air is supplied from the line through opening 12. At the same time, through the opening 10 with the help of an air distributor]), compressed air is supplied to the prechamber from the magnetic ......,. _n rali. The valve 4 occupies the initial position and closes the hole with its spherical part 4, which in the initial position has negative curvature, and also cuts the hole 9 of its mountainous section 5. At this time, the air distributor 11 is connected to the compressed air line,

To bring the pulse head into action, it is necessary to pronounce the release of compressed air from the cavity, flap into the atmosphere with the help of a distributor 1 1 „In this? time, the overlap valve 4 begins to stretch, that is, its part 5 takes up hollowing II, ά the curvature of the spherical caste b tends to zero, but the air inlet is still seperate> then the pre-chamber message with the vacuum pump is produced, while valve 4 takes position III. The curvature of the spherical part of the floor element becomes positive. The elastic properties of the overlap element, which reduce the time for opening the air hole, are manifested when the curvature of the spherical part is changed. The hole 3 opens and compressed air flows out into the cavity above the mixture in a short period of time and seals it. As soon as the elastic element occupies its highest position, the suction of air from the prechamber ceases, since it is blocked by the element itself, while the vacuum pump is switched off using the '1 distributor and the initial pressure is restored to the limit x 30 - 50 kPa,

At the end of the compaction process, the pressure in the receiver 2 becomes equal to atmospheric pressure, while the distributor is' 1 ^! connects the receiver to the main pipeline and compressed air is supplied to the pre-chamber. The valve 4 returns to its original position, the hole 3 is closed, and compressed air is supplied to the receiver and the pulse head becomes ready for sealing in the following form.

The surface of the valve, located directly above the vacuum hole, is spherical in order to create a negative deflection of the elastic element and activate the elastic sipes of this element, which will accelerate the response process. The diameter of the spherical part in plan is equal to the outer diameter of the air inlet, and the radius of curvature of the sphere should not be less than the diameter of the air inlet (since otherwise there will be no possibility of changing the curvature) and at the same time, it should not exceed 2.63 diameter d of the air inlet verst, since only in this case, when the element passes through the zero position (when its curvature becomes zero) will the tight contact of the valve 4 and the seat 5 be ensured, which is necessary to seal the cavity above the mixture. In addition, this aspect ratio will provide an angle of inclination of the tangent to the sphere equal to r G, and will create optimal conditions for a stream of compressed air to flow around the elastic element 4,

The invention allows to significantly improve the quality of the forms due to the increase in the speed of operation of the valve.

Claims (1)

Claim An impulse head comprising a receiver housing, a valve including a housing, a diaphragm covering the outlet, an annular hole connecting the receiver to the internal cavity of the valve housing, connected by a pipeline to a source of compressed air and atmosphere, characterized in that, in order to improve the quality of the seal molding sand, the diaphragm is made in the form of part of an elastic sphere with a radius greater than the diameter of the outlet, but not more than 2.63 10 of its diameter, limited by a torus with a diameter exceeding the width of the count the front hole, and the side surface of the valve body is made toroidal, while the pipeline 15 of the clan is connected to a vacuum pump.