UA20546U - Plant for ammunition utilization - Google Patents

Abstract

A plant for utilization of ammunition has a unit for ammunition deactivation with explosion chamber and means for heating explosive chamber, means forloading and unloading ammunition, appliance for gases extraction, its input is arranged with possibility of separate connection to explosion chamber and means for heating explosion chamber. To increase reliability of operation, the unit for ammunition deactivation is arranged as hollow body separated with inclined trough with formation of blast chamber placed in the upper part of the body and connected to means for loading and unloading ammunition, and heating chamber placed in the lower section of the body where means for heating explosion chamber are installed.

Description

Description of the invention

The useful model belongs to installations for the thermal disposal of products containing explosive substances, in particular, 2 different types of disruptors, capsule sleeves, capsule detonators, cartridges that are subject to destruction in connection with the expiration of the expiration date, reduction or modernization of weapons.

A well-known installation for destroying destroyers (patent of the Russian Federation Mo2155319, MKV "7": Е42833/00, priority 04.07.1996), which was chosen as an analogue.

The installation contains a device for emptying ammunition with a detonation chamber and adjustable means for heating the detonation chamber, a loading device, a loading sensor, an unloading device, an unloading sensor, a detonation control sensor of the detonator, and a logic unit.

The outlet of the adjustable heating means is connected to the detonation chamber, into which the detonator is fed through the loading window with the help of the loading means. The load sensor is connected to the second input of the logic block.

The drained explosive is unloaded through the loading window of the explosive chamber with the means of unloading. The unloading sensor is connected to the third input of the logic block. The detonation control sensor of the breaker is connected to the first input of the logic block. The first output of the logic block is connected to the input of the adjustable heating means, the second output of the logic block is connected to the input of the loading means, the third output of the logic block is connected to the input of the unloading means.

The installation works like this.

In the initial position, the unloading device closes the loading window of the explosive chamber. The logic block generates a signal from the second output to the input of the loading device, which places the fuse in the explosive chamber. At this moment, the sensor of the loading device forms a signal about the presence of a disruptor in the explosive chamber. This signal enters the second input of the logic block. Under the influence of this signal, the logic block forms a control signal on the first output that connects the adjustable heating means to the explosive chamber, and on the second output - a signal that enters the input of the loading device. The download tool prepares the next shredder for loading. Regulated heating means supply electricity to the explosive chamber. The detonator is heated in the explosive chamber to the temperature at which the explosive substance detonates.

Detonation is accompanied by the occurrence of a shock wave, under the action of which the detonation control sensor forms a signal that enters the first input of the logic block. The latter forms a signal that, through the first output, is sent to the input of the adjustable heating device, turning off the explosive chamber, and through the third output - to the input of the unloading device, which unloads the emasculated disruptor from the explosive chamber. At the time of discharge of the exhausted breaker, the discharge sensor generates a signal that enters the third input of the logic block. The logic block generates a signal that, through its second output, affects the loading device. The next (av) disruptor is being loaded. Then the cycle repeats.

The general characteristics of the technical solution that is claimed and its analogue are: a device for the disposal of cm ammunition, containing a device for emptying ammunition with a detonating chamber and means of heating the explosive chamber, means of loading and unloading ammunition.

The presence of a large number of sensors in the considered installation for the thermal disposal of ammunition, which generate signals for controlling the installation, complicates the design, as a result of which the reliability of its operation decreases. c It is known, selected as a prototype, an installation for thermal disposal of ammunition (patent of Ukraine Mo4643, MKV 7: 1» E42833/06, priority 07.06.2004.

The installation for thermal disposal of ammunition contains a device for emasculating ammunition, which consists of an explosive chamber and means of heating the explosive chamber. The explosion chamber consists of

GF of a thick-walled inclined pipe, in the middle of which a blade device is installed. The pipe is made with the possibility of rotation around the longitudinal axis using a rotation mechanism. Heating means are located along ("in") the pipe on its outer side. The temperature in the pipe is monitored using a temperature sensor, the values of which are transmitted to a remote point. The installation for the thermal disposal of ammunition also contains means of loading and unloading of ammunition, as well as a gas extraction device. The ammunition loading device consists of a conveyor connected to the hopper and a tray connecting the hopper to the pipe. At the same time, the tray

Ф is connected to the device for tilting the tray, and the shutters are installed inside the tray, which are made with the possibility of automatic opening under the action of the mass of ammunition. The ammunition unloading device is connected to the opposite end of the pipe. The entrance of the gas extraction device is made with the possibility of separate connection with the detonation chamber and means of heating the explosive chamber. The outlet of the gas extraction device is connected to the heat exchanger.

The installation works like this. c Turn on the heating means and the gas extraction device 5. Heat the explosive chamber to the temperature at which the detonation of the explosive substance occurs.

Depending on the type, a certain amount of ammunition is placed on the transporter of the loading device, which is subsequently placed in a bunker and a tray, the angle of which is adjusted by the tray tilting device. Under the action of the mass of ammunition, the shutters located in the tray open automatically, and the ammunition enters the explosive chamber from the inclined tray. The rotation mechanism ensures the rotation of the tube of the explosive chamber with a blade device inside, as a result of which the ammunition is mixed and moved inside the tube. During the stay of the ammunition in the zone of increased temperature, the detonation of the explosive substance and the detonation of the ammunition take place. The temperature sensor records the temperature inside the pipe and sends signals to the control panel to turn off or turn on the heating means. Solid components of exhausted ammunition accumulate in the opposite loading end of the pipe and are removed by means of unloading ammunition. The gas extraction device forcibly removes gases separately from the explosion chamber and from the means of heating the explosion chamber, directing the gases to the heat exchanger. The time spent by the ammunition in the explosive chamber depends on the speed of rotation of the explosive chamber, the angle of its inclination and the temperature at which the detonation of the explosive substance takes place, and which is set from the remote control and monitored using a temperature sensor.

The general features of the technical solution that is claimed and the prototype are: a device for the disposal of ammunition, containing a device for emptying ammunition with a detonating chamber and means for heating the explosive chamber, means for loading and unloading ammunition, a device for extracting gases, the entrance of which is 7/0 Made with the possibility of separate connection with the detonating chamber and means of heating the explosive chamber.

The presence in the considered installation for the thermal disposal of ammunition of the mechanism of rotation of the explosive chamber, as well as a multi-stage device for loading the explosive chamber and a temperature sensor located in the explosive chamber and connected to the remote control panel complicates the design of the installation and reduces the reliability of its operation.

The basis of the useful model is the task of improving the installation for the disposal of ammunition, in which, due to the design features, simplification of the installation design is ensured, which increases the reliability of its operation.

The task is solved by the fact that the installation for the disposal of ammunition, which contains a device for emptying ammunition with a detonating chamber and heating means for the explosive chamber, means for loading and unloading ammunition, a gas extraction device, the entrance of which is made with the possibility of separate connection with the detonating chamber and heating means explosive chamber, according to the useful model, the device for emasculating ammunition is made in the form of a hollow body, which is divided by an inclined tray with the formation of an explosive chamber located in the upper part of the body and connected to the means of loading and unloading ammunition, and a heating chamber located in the lower part of the case, in which means of heating the explosive chamber are installed.

An appropriate means of loading ammunition is a pipe with a gate valve, which is connected to a detonating chamber in the upper part of an inclined tray.

An expedient means of unloading ammunition should be performed in the form of an unloading window, which is connected to the detonation chamber in the lower part of the inclined tray. It is advisable to make the body armored.

The listed features make up the essence of a useful model. -

The causal relationship between the essential features of the useful model and the technical result is explained as follows. yu

Due to the fact that the ammunition disposal facility contains a device for emptying ammunition with a detonating chamber and means for heating the explosive chamber, means for loading and unloading ammunition, o a gas extraction device, the entrance of which is made with the possibility of separate connection with the detonating chamber and means for heating the explosive chamber, which the ammunition emptying device is made in the form of a hollow body, which is divided by an inclined tray with the formation of an explosive chamber located in the upper part of the body and connected to the means of loading and unloading ammunition, and a heating chamber located in the lower part of the body, in which the means are installed heating the explosive chamber, "

Simplification of the installation design is ensured. The simplicity of the proposed ammunition disposal facility is explained by the absence of rotating elements and their drives in its design, as well as the absence of sensors that generate signals to control the facility. )" The execution of the explosive chamber in the form of the upper part of the case, which is separated by an inclined tray, eliminates the need to mix the ammunition, because, falling on the inclined tray, the ammunition under the action of its own

The masses are involuntarily distributed over the surface of the inclined tray, which is heated, moving along the inclined tray in

GI direction of the means of unloading.

The location of the heating chamber with heating means in the lower part of the unit's body ensures uniform heating of the surface of the inclined tray, which is in contact with the ammunition, and eliminates the need to mix the ammunition.

A means of loading ammunition, which is made in the form of a pipe with a gate valve, and a means of unloading ammunition, which is made in the form of a

F of the unloading window.

The simplicity and reliability of the installation is also ensured by the armored body of the emasculation device, in which the explosive and heating chambers are placed. 5B Below is a description of the equipment for the disposal of ammunition, which is claimed, with references to the drawings, which schematically show: c in Fig. 1 - the installation for the disposal of ammunition, a front view; in Fig. 2 - a side view of the installation for the disposal of ammunition.

The installation for the disposal of ammunition contains a device for emptying ammunition with a detonating chamber 1 and in means of heating 2 explosive chambers 1, means of loading 3 and unloading 4 of ammunition, a device for extracting gases 5. The entrance of the device for extracting gases 5 is made with the possibility of separate connection with the detonating chamber 1 and means heating 2 explosion chambers 1.

At the same time, the ammunition emptying device is made in the form of a hollow body 6, which is divided by an inclined tray 7 with the formation of an explosive chamber 1, which is located in the upper part of the body 6 and connected to 65 means of loading and unloading 4 ammunition, and a heating chamber 8, which located in the lower part of the housing 6, in which heating means 2 explosive chambers 1 are installed.

The means of loading Z ammunition is made in the form of a pipe with a gate valve, which is connected to the detonation chamber 1 in the upper part of the inclined tray 7.

The means of unloading 4 ammunition is made in the form of an unloading window, which is connected to the explosive Chamber 1 in the lower part of the inclined tray 7. The body b is made armored.

Heating means 2 are made in the form of a gas burner.

The ammunition disposal facility works as follows.

Turn on the gas burner of the heating means 2 and the gas extraction device 5. Heat the explosive chamber 1 to the temperature at which the detonation of the explosive substance occurs. 70 V tube of the means of loading C is loaded with a frequency of 30 seconds one ammunition at a time and pushed through by a piston (not shown). Under the action of the weight of the ammunition, the gate installed in the pipe opens automatically, the ammunition falls on the inclined tray 7 of the emasculation device and slides down. At this time, the ammunition is heated and detonated.

During the ammunition depletion period, the gas extraction device 5 forcibly removes gases separately from the explosive chamber 1 and from the heating chamber 8.

After loading the last ammunition into the explosive chamber 1, the heating of the explosive chamber 1 is continued for 10-16 minutes. Next, the gas burner of the heating means 2 and the gas extraction device 5 are turned off. The solid components of the depleted ammunition collected in the lower part of the explosive chamber 1 are discharged through the discharge window of the discharge means 4. Then the cycle is repeated.

The long stay of the ammunition in the explosive chamber 1 in the zone of increased temperature, as well as the heating of the explosive chamber 1 for 10-16 minutes after loading the last of the ammunition into the explosive chamber 1, guarantees the quality of the ammunition depletion.

Claims (4)

Formula of the invention that with 1. Installation for the disposal of ammunition, containing a device for emptying ammunition with a detonating chamber and means for heating the explosive chamber, means for loading and unloading ammunition, a device for extracting gases, the entrance of which is made with the possibility of separate connection with the detonating chamber and means for heating the explosive chamber, which is distinguished by the fact that the device for emptying ammunition is made in the form of a hollow body, which is divided by an inclined tray with the formation of an explosive chamber, which is located in the upper part of the body and is connected to the means of loading and unloading ammunition, and a heating chamber, which is located in the lower part of the case, in which means of heating the explosive chamber are installed. 2. Installation according to claim 1, which differs in that the means of loading ammunition is made in the form of a tube "2 gate, which is connected to the detonation chamber in the upper part of the inclined tray. with Q. The installation according to claim 1, which differs in that the ammunition unloading means is made in the form of an unloading window, which is connected to the detonation chamber in the lower part of the inclined tray. 4. Installation according to claim 1, which differs in that the body is armored. "- and" name) ("c) 1 sh" 4) 60 b5