DE338420C - Device for unloading projectiles and similar enclosures filled with solid explosives - Google Patents

Description

The invention relates to the unloading of projectiles, etc. in such a way that hot Water from about 90 to 95 ° C with 2 to 4 atm. Pressure by means of a nozzle into the with The projectile pointing downwards is injected into the filling hole. Because of the high temperature of the water and the mechanical (eroding) effect of the water jet, the projectile is emptied in a short time and so Rinsed completely clean so that there is no need to evaporate again. That The new is that the expiring one is called. Water with the melted or floating Nitro bodies (e.g. trinitrotoluene) is passed through a sedimentation box provided with partition walls, in which the separate heavy nitro bodies while the hot water runs into a collecting basin, from which it is sucked in by a pump and again into the nozzles for emptying of the next floor is injected. Because the water after melting out is still about 80 ° hot, it only needs again to 90 to 95 ° in the collecting basin to be heated, so that the heat consumption is extremely small. The nitro body is constantly withdrawn and removed from the sedimentation box, so that no dangerous Accumulation takes place. Ignition of the explosive is impossible because it is always under water. Above all If a smoke generator contained in the storeys is removed completely safely, there it remains moist and can be caught and removed on an upstream sieve.

Is the projectile not with a pure nitro body, but with a mixture of the same with ammonium nitrate or other water-soluble bodies or with ammonal filled, the melting out takes place by hot water in the same way and it gets the resulting lye by the Centrifugal pump fed to the nozzles until it receives the saturation required for extraction of the solute, e.g. B. the aminone nitrate, is suitable by evaporation. So it takes place at the same time as unloading A separation of the components of the cargo takes place in one operation. Has the lye When the desired saturation is reached, it is repelled and the process begins with fresh hot water all over again. Due to the easy solubility of ammonium nitrate in hot water the discharge takes place in an extremely short time.

Another advantage of the method is that any one on the same device Bullets of different sizes and with each filling hole can be emptied easily can.

An embodiment of the device used for applying the method is shown on the drawing.

Fig. 1 to 3 are side view, section and plan view of a nozzle arrangement; Fig. 4

shows the nozzle on an enlarged scale with a 'grenade, Fig. 5 the same nozzle in use in the event of a dropping bomb; Figures 6 and 7 show one in elevation and in plan Representation of the entire system.

A grate I, ζ. B. made of wrought iron is built into a frame 2. A pipeline 3, which runs out into individual grate openings with easily exchangeable nozzles 4, is guided under the grate. The nozzles are, depending on the shape and size of the projectiles to be discharged, adapted to these differences in their arrangement, size and shape of the openings. Each nozzle can be switched on and off at will by means of a shut-off valve 5. A protective funnel 6, which is designed depending on the size and shape of the projectiles, prevents losses of circulating water, enables the projectiles to be placed properly and safely. Diverting the mixed circulating water into a return channel 7. The frame is extended above the grate; by means of round rods 8, which can be adjusted as required in the corresponding holes in the top frame, the projectiles are held in the head position on the grate. α is the nozzle arrangement with operating platforms on both sides, b a settling box for separating out the nitrous bodies, c the collecting tank, d the circulation pump.

The process is as follows: The collecting tank c is filled with fresh water. With the steam coil c ₂ the water is heated to 90 to 95 ° C; then j the circulation pump d is put into operation, the tap c _{s is} opened and the hot water from c is pressed through the line e to the nozzles and into the projectiles placed on them. The water returning from the projectiles with explosives falls into the return channel f and is guided through it into the sedimentation box b. This deposit box is double-walled, so it can be heated. It is only slightly heated during operation and serves to hold back the nitro bodies, which are heavier than the water, while the water returns through the overflow pipe to the collecting basin c and from there the cycle begins again.

The amount of heat that the circulation j

water loses on its way from the collecting tank to the sedimentation box, is fed to it again in the sedimentation box b and through the heating coil c ₂ in the collecting box c , so that it constantly retains 90 to 95 ° C in front of the nozzles.

The sedimentation box b has heated taps on the bottom, by means of which the nitro bodies that are deposited in the box can be tapped from time to time and drained off into vessels b ₃ at will.

The collecting tank has a drain cock c _i; by means of which the lye can be drawn off from time to time when emptying bullets with ammonium pesticides or other easily meltable mixtures.

In addition to providing the greatest security against fire and the risk of explosion, it also offers the invention made great technical advances due to the low heat consumption, the general Application to all types of storeys and through simultaneous separation the constituents of existing explosives mixtures.

Claims (3)

Patent Claims: i. Device for unloading solid state of aggregation filled with explosives Shot and the like coverings by means of hot water, thereby characterized in that the hot water is supplied in a circuit, with the purpose of separating water-soluble and water-insoluble constituents of the cargo mixture, the insoluble bodies are permanently deposited in a sedimentation box and the components forming the charge are kept under water during the entire operation. 2. Apparatus for applying the method according to claim 1, characterized in that a pump (d) and nozzles (4) are arranged so that the water from the collecting basin after the nozzles and through them into the projectile arranged above each "nozzle reaches, while a return channel (/) is provided below the projectile support for the return of the water, which entrains the components of the load in a dissolved or floating state. 3. Apparatus according to claim 2, characterized in that a settling box (&) and an overflow pipe (& ¹ ) for the sinking heavy components and for the return water containing the water-soluble bodies are arranged between the return channel (f) and the collecting basin (c). For this purpose 2 sheets of drawings.