RU69787U1 - INSTALLATION FOR CLEANING OF CONTAINERS FROM POLLUTION - Google Patents

Abstract

The utility model relates to the field of engineering and is used to remove from the wagons, containers having a metal inner shell, the remnants of bulk materials transported. This technical development helps to increase the intensity and ensures the complete removal of contaminants and residues of the transported material from large tanks with an internal metal shell. Installation for cleaning containers from contamination includes a magnetic pulse oscillatory system, a striker installed in the housing, on which an elastic element is installed - an amplitude sensor associated with a frequency regulator of pulses supplied to the exciter of the magnetic pulse oscillation system and the striker. 1 ill.

Description

The utility model relates to the field of mechanical engineering and is aimed at creating equipment for removing from the wagons, containers and other containers having a metal shell, the remains of transported bulk and brittle materials.

A vibrating installation for descaling from long parts is known, which has a chamber on one side of which there are two holes on which rings with metal brushes are mounted to prevent granular abrasive chips from falling out through which the pipe is pushed at different speeds (A.P. Babichev, I. A. Babichev “Fundamentals of vibration technology”, Rostov-on-Don, 1999, p. 321). The disadvantages of the installation include the lack of feedback between the vibration system and the modes of processing by pulses of parts of the part with variable shell stiffness having a different design and a variable layer of contaminants on the shell, which reduces the intensity or stops the cleaning process.

Known magnetopulse installation for descaling, having capacitors, a current source, a chamber in which the workpiece is fixed on a movable rotary frame. The depth of immersion is regulated by the supports (A.P. Babichev, I.A. Babichev "Fundamentals of vibration technology", Rostov-on-Don, 1999, p. 320). The disadvantages of the installation include a decrease in the intensity of cleaning parts when changing their rigidity due to the different design of the part, the position of the place of application of the pulsed effect, the presence of different coating thicknesses from contaminants.

A known installation for magnetic pulse shaping and other technological purposes with a discharge circuit, creating

electromagnetic forces equivalent to the energy of the electric field of capacitors acting on the pathogen and the moving part of the installation (“Electrophysical and Electrochemical Methods of Material Processing” - Volume 2, edited by Doctor of Technical Sciences, Professor V. P. Smolentsev, Moscow, “Higher School”, 1983 p. 122, prototype). The disadvantages of the installation include the need for removing contaminants to increase the energy of the capacitor field when the stiffness of the shell-contamination system changes, which leads to the appearance of plastic deformation of the shell and defects in the shape of the container.

The aim of the invention is to increase the intensity and ensure complete removal of contaminants from large-sized parts of variable stiffness with different thicknesses of coatings from contaminants.

The installation is characterized in that it is equipped with an amplitude sensor of the oscillatory system mounted on the outer surface of the shell of the part near the pulser of the pulse action on the shell of the part, while the amplitude sensor is connected to a frequency regulator of pulses supplied to the striker from the current source, and an elastic element is installed on the striker with the force of longitudinal elasticity not higher than the momentum of the striker.

Figure 1 shows the installation diagram for cleaning containers from contaminants. The installation includes an oscillating system of a magnetic pulse exciter 1 mounted on the striker 2 with an elastic element 3. The causative agent 1 is connected via capacitors 4 and adjustable resistance 5 to a frequency regulator 6 of pulses supplied to the oscillating system from a current source 7. The striker 2 is installed opposite the shell 8 of the part with pollution 9 on its inner side, where there may be power elements 10 that change the stiffness of the shell 8 with pollution 9. The hammer 2 is installed with an initial clearance 11 relative to the outer surface of the shells and 8. Near the place impact on the shell 8 of the striker 2 is a sensor 12, such as induction type, amplitude fluctuations shell 8. The pin 2 has the ability to reciprocate

movement 13 relative to the housing 14 of the oscillatory system and the shell 8. The oscillation system has the ability to move relative to the shell 8 at coordinates 15.

Installation works as follows. The oscillation system, including the pathogen 1, the striker 2 with the elastic element 3, the capacitors 4 with the tuning resistance 5 in the housing 14 are installed outside relative to the shell 8 of the packaging body parts with pollution 9 on the inner surface of the shell 8 with a gap 11 less than the stroke of the striker 2, include the current from the current source 7 to the pathogen 1 through the regulator 6 of the pulse frequency. Under the influence of pulses in the exciter 1, the firing pin 2 accelerates along the axis with a force regulated by the capacitor 4 and the resistance 5 in the direction of the shell 8, and produces a shock. After the pulse ceases, the striker 2 under the action of the elastic element 3 moves to its initial position along the axis 13. Under the impact of the striker 2, the shell 8 produces, along with the contamination 9, an oscillatory movement perceived by the sensor 12, where the magnitude of the amplitude of vibrations depends on the state and size of the shell 8, pollution 9, the presence on the surface of the shell 8 of the power elements 10 (frame, frame, etc.) The regulator 6 changes the pulse repetition rate of the striker 2 in the specified range and acts on the shell 8 to remove pollution 9. P follows this oscillating system is moved along the sheath 8 in a coordinate system 15 sequentially removing contamination 9 with the shell 8 (the container).

Thus, the installation provides high intensity and complete removal of contaminants of various thicknesses from large-sized parts of variable stiffness.

Claims (1)

Installation for cleaning containers from contamination on the surface of the shell of the part, including a magnetic pulse oscillatory system with capacitors and a current source, characterized in that it is equipped with an amplitude sensor of the oscillatory system of the part mounted on the outer surface of the shell of the part near the striker pulsed action on the shell of the part, the amplitude sensor is connected to the frequency regulator of the pulses supplied to the exciter of the magnetic pulse oscillatory system, and the striker, on which the elastic element an ent with a force of longitudinal elasticity not higher than the momentum of the striker.