The subject of the present invention is a method and a device for supporting the process of press moulding of finely fragmented materials by means of mechanical vibrations.
Commonly known and used devices for generating mechanical vibrations are hydraulic liquid pulsation generators comprising a piston located in a cylinder and driven with an eccentric or a cam mechanism. The piston moving under pressure of a cam forces pressure changes in liquid contained in a cylinder with a frequency equalling to this of the reciprocal motion of the piston. Known are also hydraulic generators equipped with elements controlling flow of a liquid given a form of a piston, a disc, or a sleeve. The piston-like control element is a slide distributor. Control elements in the form of a disc or a sleeve have holes made on their perimeters through which a working liquid is periodically discharged from the working space or supplied to working spaces of a hydraulic actuator. Known is also a hydraulic liquid pulsation generator with design based on a rotating distributor with distribution rotor mounted on bearings in a housing and provided with two recesses turned on its circumference. The space inside recesses is connected with inflow and outflow passages, while the outer surface of the rotor has grooves made parallel to the rotor axis and connected alternately with spaces inside recesses turned in the rotor. In a side portion of the body, a slit is made through which the pulsating stream of liquid is led out to a hydraulic actuator.
A flaw of the solutions employing a control element in the form of an eccentric or a cam is the low achievable pulsation frequency limited by inertia of the piston demonstrated in its reciprocal motion, and in case of designs with the control element in the form of a disc or a bushing, achieving high flow rates and higher pulsation frequencies results in significant increase of dimensions of the device. These flaws are absent in the design with rotating distribution rotor, provided that the problem will be solved of flow resistance which is the main obstacle in reaching higher flow rates and higher frequencies with the noise emitted by the device kept at an acceptable level.
The objective of the present invention is to provide a method and a compact efficient device for supporting the process of press moulding of finely fragmented materials by means of mechanical vibrations with high amplitude and large frequency.
The essence of the universal method and the device for supporting the process of press moulding of finely fragmented materials by means of mechanical vibrations is characterised in that the force unit comprises a main actuator, a hydraulic vibrator, main table lower body yoke, a thrust table, posts, four columns, a lower punch plate, and a punch. The main actuator favourably transfers the quasi-static pressing force onto the main table and further, via four columns, to the lower punch plate, whereas the thrust table is connected permanently by means of posts with the lower body yoke, while the thrust table carries a hydraulic vibrator permanently connected with the thrust table, and hydraulic vibrator transfers the additional dynamic force to the lower punch plate. It is also favourable that the grooves of two types, on one side, are connected permanently with passage of the port, and on the other side, depending on position of the rotor, can be connected with one of two arms of the flow guide. It is further favourable that the passage, depending on position of the rotor, is connected directly with one of the alternately located grooves, while the passage is connected with the space above the actuator's piston, and the passage, depending on position of the rotor, is connected directly with another one of the alternately located grooves, while the passage is connected with the space under the actuator's piston. Further, it is favourable that alternately located grooves are separated from each other by means of a sealing ring with locks. It is also favourable that alternately distributed grooves are tightly separated from each other by separators distributed on circumference of the rotor and pressed against the flow pulse generator body by the centrifugal force.
The merit of the invention consists in obtaining a quasi-static pressing force exerted by a moulding press, such force being superposed with an additional dynamical force of large amplitude and high frequency. The unit generating mechanical vibrations is characterised with low resistance of flow and high tightness which ensure high energy efficiency and low level of the noise emitted by the device.
An example embodiment of the invention is shown in
The device for supporting the process of press moulding of finely fragmented materials by means of mechanical vibrations comprises motor (1)
The principle of the pulsating stream direction change is presented in
The process of superposing the quasi-static pressing force exerted by the actuator with an additional dynamic force is accomplished in the force unit shown in
Main actuator (29)
The method of application and the compact effective device for supporting the process of press moulding of finely fragmented materials by means of mechanical vibrations with large amplitude and high frequency, with its noise kept at a low level, may find wide application in industrial practice as a basic component of special pulsation presses or special pulsation equipment of classical presses.
Number | Date | Country | Kind |
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P.406693 | Dec 2013 | PL | national |
Number | Name | Date | Kind |
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3810417 | Sieke | May 1974 | A |
4140744 | Karas | Feb 1979 | A |
4421471 | Vogt | Dec 1983 | A |
Number | Date | Country | |
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20150174846 A1 | Jun 2015 | US |