RU2445549C1 - Furnace for incineration of charges - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: proposed furnace comprises armored localiser to house cassettes with charges to be incinerated closed by cover equipped with controlled heater to communicate self-contained exhaust gas cleaner including membrane and sorption filters, cassette loader and control device. Localiser installed on inductor is isolated inside chamber via pipeline communicated with aforesaid gas cleaner, furnished with cassette load and wastes discharge gates adjoining appropriate hatches of the housing shut off by gate valves. It is made up of a stack of armor sheets with central holes to make through channel to face of which adjoin cover armor baffles. Said cover is provided with working position stop and may reciprocate. Cassette loading mechanism is made up of two-position pusher aligned with localizer loading gate to load cassette front transverse cassette feed step conveyor.

EFFECT: complete automation, higher reliability and simplified design.

3 cl, 4 dwg

Description

The invention relates to the field of destruction of solid waste by burning, and more specifically, to the design of furnaces with a separate combustion chamber having electric heating, and can be used in the disposal of shells, mines, grenades, fuses, capsules, etc., placed in standardized cartridges, for the destruction of detonation, pyrotechnic and powder equipment.

The level of this technical field characterizes the furnace for burning solid and liquid materials described in patent RU No. 2392544, F23G 5/14, 2010, which contains a lined combustion chamber equipped with a feed hopper and a grate above the ash collector, and a pyrolysis products afterburning chamber, communicating with the oxidizing air supply system, connected by a central opening of the intermediate arch.

Afterburning chamber by means of a tangentially mounted pipeline equipped with a recuperator is connected to a parallel scrubber, at the output of which an exhaust aerosol filtering device is installed.

The advantage of this furnace is its versatility in burning solid and liquid materials with almost complete oxidation of the pyrolysis products and continuous stepwise filtering of exhaust gases to an environmentally friendly concentration level.

A continuation of the advantages is the inherent disadvantages, the main of which is the inability to burn products with an explosive charge, gunpowder and pyrotechnic compositions due to their operation even when loaded into the furnace, the operating temperature of which is noticeably higher than 1000 ° C.

More perfect is the armor furnace, described in the collection of reports "Utilization-2003", P. I. Snegirev and others. Complex disposal of conventional types of ammunition. M .: Arms and Technologies Publishing House, pp. 52-57, Figs. 2 and 3, which, according to the technical nature and the number of matching features, was chosen as the closest analogue of the proposed furnace.

The known armored furnace, closed by a screw cap, forms an armored technological localizer, contains a crucible heated from a burner with an external liquid fuel tank.

Cassettes with packed products for utilization of incineration equipment are served in a trolley under an electric hoist (or gantry crane), which load the cassettes into the furnace.

The armored furnace through the pipeline is connected with an autonomous exhaust gas purification installation, including membrane and sorption filters for collecting dust and harmful substances from the exhaust aerosol, including equipment combustion products, respectively.

The disadvantages of the known furnace utilization of warhead equipment are the following:

- low productivity due to the large proportion of the time of auxiliary operations of loading and unloading cassettes in the product recycling cycle;

- unsatisfactory explosion safety when the localizer is heated by an open flame of a burner located outside the armor furnace in the working room;

- the possibility of safe one-time disposal of explosive equipment with a total mass of not more than 0.1 kg in TNT equivalent limits the industrial use of the known design;

- the need for an additional mechanism for isolating the gas treatment unit during the operation of the localizer, which can withstand pressure surges during the destruction of equipment, since otherwise the generated gaseous products from the localizer, entering the installation under impulse pressure, will disable the filters.

The problem to which the present invention is directed, is to increase the productivity of safe operation for the disposal of warhead equipment in series in industrial volumes of automated flow.

The required technical result is achieved by the fact that in a known furnace for destroying ammunition of warheads by burning, containing an armored localizer for placing cartridges with disposable items, covered with a lid, equipped with an adjustable heater and communicating with a stand-alone exhaust gas treatment unit, including membrane and sorption filters, a cartridge loading mechanism and the control device according to the invention, the localizer mounted on the inductor is isolated inside a connected pipeline with an autonomous installation of exhaust gas purification chamber, equipped with gateways for loading cassettes and unloading waste adjacent to the corresponding hatches of the chamber body, externally covered with slide gate valves, and made in the form of a package of rigidly connected armor plates with central holes forming a passage channel, to the ends of which are adjacent the armored strips of the cover installed with the possibility of reciprocating movements and equipped with a working position stopper, the cartridge loading mechanism is made in the form of a locale coaxial to the loading locale Ator toggle tappet disposed transversely of the conveyor stepper supply cassettes, the cassette loading on the pusher mechanism is mounted scrubber disc shape mating with the localizer channel and stepper conveyor feeding cassettes designed as a clamshell perekladchika.

Distinctive features ensured the complete automation of the destruction process by burning warhead equipment in an isolated furnace when disposing of shells, mines, grenades, fuses, capsules, etc. special products, as well as increased the functional reliability of structural elements, an integrated technological device of simple design, convenient to operate as intended.

The proposed design of a pass-through type localizer allows you to combine auxiliary operations of an interconnected sequence of a repeating work cycle, is a stationary accessory of the furnace and has a complete set that ensures the explosion-proof operation of the insulated device as a whole.

Placing a heat-intensive localizer directly on the inductor - an electromagnetic heater, powered from the network, increases the safety of work with effective convective heat transfer of energy to utilized warheads, more dynamically and practically without loss of heat to the initiation temperature.

The installation of an armored localizer inside a closed chamber, the case of which is connected to the mechanism for loading cassettes and unloading waste, allows you to isolate the dynamically loaded functional organ of the furnace (localizer) from the working room, which increases the operational safety of the furnace.

The connection of the chamber body with a pipeline with an autonomous exhaust gas purification unit ensures the constant removal of gaseous combustion products of warhead equipment from its volume, preventing the increase in pressure and increase in the concentration of harmful substances in the working room beyond the established limits.

The location of the localizer isolated at the same time eliminates the unauthorized release of the combustion products of the equipment beyond the boundaries of the chamber, which minimizes the negative consequences of a possible accident.

Equipping the chamber with gateways for loading cassettes and unloading waste adjacent to the corresponding hatches of the housing allows you to spatially combine these operations of successive cycles of work on the disposal of products in different cartridges from one pusher of the loading mechanism.

Moreover, due to the mechanism of loading the cassettes of the disk wire ruff fixed on the plunger, the operation of removing the waste from the localizer with the mechanical cleaning of its passage channel, carried out in one stroke of the coaxial pusher, is combined in time.

The installation of slide shutters adjacent to the loading and unloading hatches outside the chamber of the chamber ensures complete and reliable isolation of the communication gateways with the technological structural elements during the burning of warhead equipment in the localizer.

The slide gate valves of the armored camera connectors under the pusher of the cartridge loading mechanism and above the waste collection container isolate its volume from the working room, blocking emissions of combustion products of pyrotechnic, explosive and powder equipment of utilized products.

The implementation of the localizer in the form of a package of rigidly connected armor plates provides resistance to the impulse load of the pressure jump during detonation or burning of destroyed equipment due to damping of alternating deformations in the peculiar arched structures formed by axial holes in each structural armor plate of the package, which together form a passage channel.

This ensures the unity of form and function, technological design, ensuring utilitarian purpose.

The proposed design of the localizer provides a three-fold safety margin at the maximum dynamic load from detonation of a set of unit explosive charges placed in its volume.

The rigid connection of the armor plates forms a monolithic structure of the power localizer with a passage channel necessary for the automation of the cyclic process.

The adjacency at the ends of the passage channel of the locator of the armored strikers of the movable cover creates a closed technological volume, inside which combustion and / or detonation of warhead equipment occurs, eliminating the destructive effect of pressure pulses on the chamber. Shock waves are quenched inside the localizer, and detonation waves decay in the volume of the armored chamber.

The installation of a cover bearing armored strikers, with the possibility of reciprocating movements, allows you to position it in the highest position, opening the pass channel of the localizer for loading and unloading, and in the lower position to isolate the localizer for the duration of its operation.

Made in the form of a mechanical stopper, the latch of the working position of the lid, when its chippers are adjacent to the ends of the localizer, guarantees a kinematic closure of the volume of the passage channel for the period of destruction of the equipment of the products.

Performing a step conveyor for feeding cartridges to the line of furnace centers in the form of a clamshell shifter is the simplest constructive solution that reliably and accurately functions as intended.

Equipping the pusher loading mechanism of the cassettes with a disk wire brush, which is interfaced with the localizer channel, provides mechanical cleaning of the passage channel from soot, condensed particles of combustion products and adhering fragments when removing waste waste, which increases the functional reliability of the furnace as a whole.

The proposed design of the furnace with increased functional reliability allows a multiple increase (up to 1 kg in terms of TNT equivalent) of the mass of warhead equipment in the cartridge with guaranteed explosion safety during disposal by burning.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of a quality that is not inherent in the signs of disunity, that is, the goal set in the invention is achieved not by the sum of the effects, but by a new super-effect of the sum of the attributes.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for an ammunition specialist, showed that it is unknown, and taking into account the possibility of industrial serial production of a furnace for disposing of equipment, it can be concluded that the patentability criteria are met.

The invention is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the totality of the features of the formula. The drawings show:

figure 1 - technological diagram of the furnace;

figure 2 is a longitudinal section of a camera;

figure 3 is a section aa in figure 2;

figure 4 - step conveyor feed cassettes.

Equipment of small-caliber artillery shells, grenades, mines, capsules, fuses, fuses, pyrotechnic charges, etc., packed in a burning cartridge, which is an assembly piece unit processed in the process stream of a full warhead disposal cycle, is destroyed in the proposed furnace by burning.

The furnace according to the invention comprises an insulated chamber 1, in which an inductor 2 (electromagnetic heater) is mounted, connected to a current source 3 (220/380 V, 50 Hz).

A localizer 4 is installed on the inductor 2 in a tubular shape, which is made of armor plates 5 with central holes rigidly tightened by threaded rods 6 (Figs. 2, 3).

The openings of the armor plates 5 in the assembly of the localizer 4 form a passage channel 7 for the diameter of the cartridges.

Above the localizer 4 on the housing 8 of the chamber 1, a pneumatic cylinder 9 is installed, on the rod 10 of which is fixed a cover 11 with wedge-shaped armored strips 12, mating along the profile with the ends of the localizer 4, tightly blocking its passage channel 7.

A pneumatic cylinder 13 is installed on the housing 8 of the chamber 1, the rod 14 of which acts as a stopper, kinematically closing the rod 10 of the pneumatic cylinder 9, thereby fixing the working position of the cover 11 on the localizer 4.

To the localizer 4 adjoin the tubular gateway 15 for supplying cassettes and on the opposite side of the funnel-gateway 16 for receiving residues after combustion.

The locks 15, 16 are installed respectively in the hatches 17, 18 of the housing 8 of the chamber 1, which are blocked by the slide gate valves 19, 20 mounted on the rods 21, 22 of the pneumatic cylinders 23 and 24 (Fig. 1).

A step feeder 25 of cartridges is adjacent to the hatch 17, positioning them sequentially coaxially to the gateway 15 for piecewise supply to the localizer 4 by means of a pusher 26 — the rod of the pneumatic cylinder 27, which has three positions: the original (left one according to the drawing) and two workers of different stroke lengths for feeding the cartridge into the localizer 4 and expelling from it the waste of the previous incineration, respectively.

At the end of the rod-pusher 26, a disk ruff 28 of radially spaced elastic wires is fixed.

Under the funnel-gateway 16 on the outside of the chamber 1 is installed coaxial container 29 for collection of waste disposal.

The chamber 1 by a pipe 30 communicates with a mobile exhaust gas treatment unit (Fig. 1), which contains membrane filters 31 at the inlet, removable sections 32 with bulk sorption material (activated carbon) and membrane filters 33 at the outlet in front of the diffuser, in the outlet pipe of which an exhaust fan 34.

The heating temperature of the inductor 2 is regulated by blowing cold air from an external compressor through a pipe 35.

Transverse to the gateway 15, the mounted stepping feeder 25 is made (Fig. 4) in the form of a clamshell shifter, the supply rail 36 of which is connected to the drive 38 through a crank mechanism 37. On the rail 36 placed in the longitudinal groove of the support platform, prisms 39 are equally distributed under cassette stacking.

The sequence of operations and technological modes of the furnace are carried out automatically from the control device 40 according to the signals of the position sensors of the structural elements.

The furnace operates as follows.

When the "Start" button of the control device 40 is pressed, the current source 3 is turned on, which feeds the winding of the inductor 2 and the exhaust fan 34 of the gas treatment unit, the pipeline 30 of which communicates with the camera 1.

The pusher 26 of the pneumatic cylinder 27 cassette with the packaged products is fed from the coaxial prisms 35 of the rail 32 of the clamshell 25, through the tubular hatch 15 of the housing 8 of the camera 1, into the localizer 4, after which the pusher 26 returns to its original position at the command of the limit switch of the track control system.

Next, the gate valves 19, 20 overlap the hatches 17 and 18, and the cover 11 with the working stroke of the rod 10 of the pneumatic cylinder 9 lowers to its lowest position, where its armor strips 12 mate with the ends of the localizer 4 and block its channel 7, isolating the cartridge in the armor shell 4-12 for burning.

When this rod 14 of the pneumatic cylinder 13 kinematically closes the rod 9 (installed in its groove), fixing the closed position of the cover 11.

When the temperature reaches 400-600 ° C inside the localizer 4, heated by convective heat transfer from the inductor 2, the equipment ignites and / or detonates in the cartridge, as a result of which they burn out, as judged by the readings of pressure and vibration sensors that are recorded in electronic media devices 40.

After a given exposure time, the stopper 14 releases the rod 10 and the cover 11 returns to its original position, the bumpers 12 of which open the passage channel 7 of the localizer 4.

The gaseous products of the combustion of warhead equipment by the exhaust fan 34 are removed from the chamber 1 and through the pipeline 30 enter the gas treatment unit, where dust, fine particles are trapped on the membrane filters 31, and harmful substances settle in the sorption filters 32. Thus, clean process air enters the atmosphere with traces of the indicated inclusions, the content is significantly lower than the MPC standards established by SanPin.

After that, the gate valves 19, 20 open the hatches 17, 18, respectively, and then the pusher 26 with the pneumatic cylinder 27 moves into the chamber 1 to the extreme right position according to the drawing, where residues are pushed out from the localizer 4 after being burned into the funnel-gateway 16 and further into the container 29. When this disk ruff 28 cleans the channel 7 from soot, adhering solid particles and fragments to continue working.

After the reverse of the pusher 26, the drive 38 of the feeder 25 is turned on, as a result of which the crank 36 of the rail 36 with the cassettes laid on the prisms 39 rises above the support platform and moves one step to the right according to the drawing, where it drops to the initial level.

In this case, the cassettes are delayed on the support, mounted on prisms 39, and the first of the cassettes is coaxial with the center line of the camera 1.

Then the rail 36 returns to its original position.

Next, the work cycle is repeated in the described sequence of actions.

Exhaust fan 34 gaseous products are removed from the chamber 1 during the entire operating cycle. At the same time, unburned particles and the condensed phase are retained in the membrane filters 31, and then harmful gas components settle in the sorption filters 32.

In the membrane filters 33, coal dust and solid residues are retained, which ensures a high degree of purification of exhaust gases.

A prototype of the proposed design of the furnace was widely tested in various technological modes for the destruction of the burning of a large range of warheads. The test results showed a convincing advantage over the known examples of equipment for a similar purpose, which allows us to recommend the furnace according to the invention for serial production for equipping arsenals, ranges of specialized parts and practical use for its intended purpose.

Claims (3)

1. A furnace for destroying ammunition of warheads by burning, containing an armored localizer for placing cartridges with disposable items, closed with a lid, equipped with an adjustable heater and communicating with a stand-alone exhaust gas cleaning system, including membrane and sorption filters, a cartridge loading mechanism and a control device, characterized in that the localizer mounted on the inductor is insulated inside a pipe connected with an autonomous installation of exhaust gas purification chamber equipped with gateways cartridges and waste unloading, adjacent to the corresponding hatches of the camera body, externally covered with slide gate valves, and made in the form of a package of rigidly connected armor plates with central openings forming a passage channel, to the ends of which there are adjacent armored strippers of a cover mounted with the possibility of reciprocating movements and equipped with a working position stopper, the cartridge loading mechanism is made in the form of a dual-position pusher, coaxial to the loading gateway, from a transverse Agov conveyor feeding cassettes. 2. The furnace according to claim 1, characterized in that a wire ruff in the form of a disk mating with the channel of the localizer is fixed on the pusher of the cassette loading mechanism. 3. The furnace according to claim 1 or 2, characterized in that the step feed conveyor of the cartridges is made in the form of a clamshell shifter.

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