RU2050287C1 - Device for destructuring the tires with the metallic cord - Google Patents

Abstract

FIELD: transportation. SUBSTANCE: device is equipped with mechanisms for the tire feeding and for the withdrawal of the decay products and with the mechanism for the bead cutting off. The destructuring device is made as a pulsed arrester with the means for switching on to the metallic cord of the tire. The pulsed arrester can be made on the basis of a capacitor. The means for switching on are made as two current-carrying plates with the drive for their reciprocal travelling. The destructuring device can be made on the basis of the accumulating reactive LC-circuit connected up through a switch. The means for connecting up to the metallic cord are made in the form of the primary winding of the transformer coaxial to the cradle. EFFECT: enhanced efficiency. 5 cl, 5 dwg

Description

 The invention relates to the disposal of waste tires with a metal cord, namely, to separate the treads of such tires from the breakers or the subsequent disposal of rubber and metal parts using one of the known methods.

 A device for the destruction of tires with a metal cord, equipped with a means for supplying tires for their disposal, a tire destruction mechanism connected to an energy source, and a device for removing products from the working area.

 A disadvantage of the known device, the duration of the destruction process of machines is associated with the design of the destruction mechanism having means for heating steel cord.

 The aim of the invention is to increase the performance of the tire recycling process.

 This is achieved due to the fact that in a tire destruction device with a metal cord having means for supplying tires for destruction, a tire destructor and a device for outputting tire destruction products from the destructor zone, according to the invention, the destructor is made in the form of a pulse arrester provided with means for connecting to metal cord, and the specified means for connection is installed in a protective chamber.

 The execution of the destructor in the form of a pulse arrester capable of exciting an electric current in a metal cord with a density sufficient for explosive destruction of the metal along the grain boundaries for several microseconds, increases the productivity of the device and helps to reduce the specific energy consumption for the subsequent processing of the destruction products.

 The goal is also achieved due to the fact that a mechanism for cutting the sides is installed in front of the means for supplying tires for destruction, the pulse discharger is made on the basis of a capacitor connected through a switch to an energy source and to a means for connecting to metal cord, and this means is made in the form of two conductive facing one another plates, kinematically connected with the mechanism of their reciprocating movement. Such interdependent forms of execution of the mentioned parts of the claimed device are the simplest and most technologically advanced, which gives the device as a whole increased reliability and simplifies its installation and maintenance.

 This goal is also achieved due to the fact that the conductive plates are made in the form of truncated cones facing one another with smaller bases. This increases the reliability of the contact of conductive plates with metal cord and reduces the likelihood of incomplete destruction of the cord mesh in individual sections.

 This goal is also achieved due to the fact that a lodgement made of non-ferromagnetic material is installed in the protective chamber for laying destructible tires, the pulse arrester is made on the basis of an accumulative LC circuit connected through a switch to an energy source and to a means for connecting to metal cord, and this means made in the form of a mobile winding of the transformer, which is mounted axisymmetrically relative to the specified lodgement.

 With such interdependent forms of execution of the main parts of the device, when the steel cord of the tire being destroyed serves as the secondary winding of the transformer, there is no need to pre-trim the sides of the tire to be destroyed, cases of incomplete destruction of the metal cord are practically eliminated, since the transmission of the destructive energy pulse occurs through the electromagnetic field to the entire volume of the metal and eliminates the problem of recycling boards.

 The difference of the invention lies in the fact that the primary winding of the transformer is installed along the geometrical axis of the lodgement and it covers the lodgement. The first private option is preferable for large, and the second for small tires.

 In FIG. 1 shows a diagram of a device with detailing of individual nodes (using conductive plates as a means of communication between a pulse arrester and a metal cord); in FIG. 2 kinematic scheme for trimming the tire sides; in FIG. 3 electric circuit of a pulse discharger based on a capacitor bank; in FIG. 4 is a communication diagram of a pulse arrester based on an accumulative reactive LC circuit with a metal cord through the primary winding of a transformer located along the axis of the tire lodgement; 5 diagram of the primary winding of the transformer, covering the lodgement.

 The device for destroying worn tires with a metal cord has a tire feeding mechanism 1 for destruction, made in the form of a belt or chain conveyor or a step conveyor equipped, if possible, with a mechanical manipulator for feeding the tires for destruction.

 The device has a protective chamber 2 in the form of a metal or reinforced concrete box, eliminating the expansion of tire degradation products to the sides and protecting personnel from accidental injuries. The chamber 2 can either be drowned out from above and below and have side loading windows with sliding or pivoting screens providing in the "open" position the tires are fed into the destruction zone and the output of destruction products. The chamber may be deaf around the perimeter and have a removable or pivoting cover for feeding tires into the destruction zone and a removable or movable bottom with a hopper for collecting degradation products (mainly in the form of a metal powder mixed with rubber crumb). Combinations of these forms of execution of the protective chamber are possible.

 The device has devices 3 for the output of tire destruction products from the protective chamber. In the role of such devices, for example, a conveyor pneumatic conveying device can be used to transfer metal powder mixed with crumb rubber to magnetic separation.

 The device has a pulse arrester 4, equipped with placed in the protective chamber by means of 5 for connecting to the metal cord destructible bus.

 The pulse arrester 4 can be performed in two ways: either on the basis of a powerful capacitor (capacitor bank), (Fig. 3) or in the form of a powerful storage reactive LC circuit, (Fig. 4). In any form of execution, the pulse arrester 4 is connected to the energy source and to the means 5 located in the protective chamber 2 through the switch 6, with which the charger and the discharge ignition device can be paired. It is also possible to use separate 6-bit devices separate from the switch.

 According to the execution forms of the pulse arrester 4, the means 5 for connecting it to the metal cord can be made either in the form of two conductive plates (Fig. 1) kinematically connected with the mechanism of their reciprocating movement, or (Fig. 4 and 5) in the form of a primary winding transformers, the secondary winding of which is the metal cord of destructible tires.

 In the first case (when using conductive plates as a means 5), a device 7 for cutting the tire beads is provided in front of the feeding mechanism 1, in the second case (when using the primary winding of the transformer as a means 5), a lodgement 8 is installed inside the protective chamber 2 for laying destructible tires.

 The conductive plates and tool tray 8 are typically interchangeable devices whose dimensions correspond to typical tire sizes. The conductive plates are facing one another and, in order to facilitate centering of the bead-edged tires and improve electrical contact between them and the metal cord, are made in the form of truncated cones, the smaller bases of which are facing one another. To the arrester 4 can be connected either both plates, or only one of them, and the other is grounded.

 The primary winding of the transformer as a means 5 of connecting a pulse arrester 4 to the metal cord (or as a means of electromagnetic coupling between the arrester 4 and the metal cord) is located axisymmetrically with respect to the lodgement 8 and can either be installed along its geometrical axis (Fig. 4) or cover it (Fig. 4). 5), including toroidal. In the latter case, the lodgement is made in the form of rigid current-carrying rods that are part of the primary winding of the transformer (Fig. 5).

 The device operates as follows.

 In the protective chamber 2, either means 5 are installed in the form of plates corresponding in size to the tires intended for destruction, or a lodgement 8, the recess in which corresponds to the dimensions of the mentioned tires.

 After trimming the sides to exposing the steel cord using mechanism 7, if conductive plates are used as means 5, or directly in the original form, if the means is the primary winding of the transformer, the tires are fed by the mechanism (conveyor and / or manipulator) into the cavity of the protective chamber and fixed between plates or stacked in a cradle 8.

 The pulse arrester 4 during the preparation of each next bus for destruction through the switch 6 and / or the charger is connected to the mains or other energy source and accumulate in the capacitor (capacitor bank) the charge required to destroy the metal cord or store in the LC circuit required for the same targets the amount of electromagnetic energy.

 During a discharge, a powerful current pulse passed through a metal cord or induced in a metal cord, due to the increased resistance at the grain boundaries of the metal, leads to an explosion of the metal cord, while the tread and the breaker are almost completely broken, and the metal particles fly out of the destroyed tire and partially settle on the walls of the protective chambers 2, and then crumble to its bottom, and partly immediately settle. Since the duration of the destructive current pulse is several tens of microseconds, the metal and rubber do not have time to heat up noticeably, volatile toxic substances are not released during the explosion of the metal cord and the process is environmentally friendly.

 After removing 2 pieces of tread rubber and / or breaker from the protective chamber, the cycle repeats. Metal powder with impurities of rubber crumb is removed from chamber 2 periodically as sediment accumulates.

 Tire destruction experiments have shown that for efficient crushing of metal cord to particles of a few microns in size it is enough to pass through a metal cord or to induce a current of density not less than 10,000 A / mm2 in it.

Claims (6)

 1. DEVICE FOR DESTRUCTURING TIRES WITH A METAL CORD, having means for supplying tires to a degradation, a bus destructor connected to an electric power source and a device for outputting degradation products from a work area, characterized in that the destructor is made in the form of a pulse arrester equipped with means for connecting to metal cord, and the means for connecting is installed in a protective chamber.  2. The device according to claim 1, characterized in that a bead cut mechanism is installed in front of the tire feed means, the pulse arrester is made on the basis of a capacitor connected to the metal cord, and the connection means is made in the form of two conductive plates facing one another, kinematically associated with the drive of their reciprocating movement.  3. The device according to paragraphs. 1 and 2, characterized in that the conductive plates are made in the form of truncated cones facing one another with smaller bases.  4. The device according to claim 1, characterized in that a lodgement made of non-ferromagnetic material is installed in the protective chamber for laying the destructible tire, the pulse arrester is made on the basis of an accumulative reactive LC circuit connected to a power source and to a means for connecting to metal cord via a switch and the means for connecting to the metal cord is made in the form of a primary winding of the transformer, which is installed coaxially with the specified lodgement.  5. The device according to paragraphs. 1 and 4, characterized in that the primary winding of the transformer is installed along the geometric axis of the tool tray.  6. The device according to paragraphs. 1 and 4, characterized in that the primary winding of the transformer is made covering the cradle.

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