SE506966C2 - destruction device - Google Patents

Abstract

The present invention relates to an arrangement for destruction of ammunition and ammunition components and conversion of these goods for destruction to metal scrap prepared for re-use. The invention is based on the goods for destruction being introduced into a destruction chamber (6) designed in a special manner, in which the goods are heated to a temperature which causes the explosive substances included therein to be combusted, to detonate or to deflagrate. The heating is carried out by burners (4) arranged outside the chamber, and scrap (22) from previously destroyed goods which has remained in the destruction chamber (6) serves as a heat accumulator for retaining heat liberated during the destruction of the explosive goods. A characteristic feature of the destruction chamber (6) is that it has the shape of a double cone (9, 10) with a short cylindrical intermediate part (11) between the base edges of the cone parts. The advantages of the present construction include the fact that the special shape of the destruction chamber makes it relatively easy to manufacture at the same time as it contributes actively to adequately high temperatures being achieved inside the same in order to give a good handling capacity.

Description

506 966 disadvantages mainly with regard to the costs of manufacturing the device in question and the device's own capacity and the present invention now has the task of offering a device which partly operates according to the same principles as that according to SE 9403528-4 but does not have its disadvantages.

The device according to SE 9403528-4 thus describes a destruction device for treatment, ie destruction of ammunition and ammunition components with limited explosive power, by which in principle ammunition up to about 60 mm caliber is meant here. The device in question comprises a spherical inner detonation or destruction chamber, which is dimensioned to withstand the detonations which the goods to be destroyed in it could give rise to. The destructive cannon is in its rotation rotatably arranged inside a heat-insulated outer chamber in which burners for external heating of the destruction chamber are also provided. A layer of sand is then arranged inside the chamber, which by the external heating of the chamber together with the radiant heat quickly gives the ammunition components supplied to the chamber such a high temperature that the explosive substances contained therein are ignited and burned, detonated or agitated. The advantages of the sand layer are mainly that the heat transfer to the supplied ammunition components becomes very efficient and that it acts as a heat accumulator and recovers and stores the heat generated during the combustion, detonation or detlagration of the relevant explosives.

However, the device in accordance with this construction becomes expensive to manufacture, partly because the spherical chamber itself is difficult to manufacture and requires a lot of work, and partly because the chamber requires a certain interior described in more detail in the patent specification. This makes it possible, in principle, only to empty out the scrap formed during the destruction and to keep the warm sand inside the chamber. For the emptying of the chamber, the previously mentioned possibility of rotating the chamber is used, which means that an upwardly facing filling opening after a 180 ° rotation is converted into an emptying outlet.

While the sand layer thus has several advantages, it also has the disadvantage that it takes up space and thus increases the demand for available chamber volume at the same time as the previously mentioned chamber interior which makes it possible to empty the chamber of scrap but keep the sand is expensive to 506 966 manufacture and on the other hand limits the service life of the chamber because it can not be avoided that it is gradually damaged. These disadvantages have led us to realize the need to improve our device.

The present invention now has for its object to provide a device which can solve the same problem as our ammunition destruction device previously described in the above-mentioned patent application, but which can be manufactured at a substantially lower price.

What has made this possible is that we have found that if we give the inner detonation chamber a special shape, which can almost be described as a double pyramid or even better a double cone instead of the previous globe shape, we get a chamber that at least with the double conform, it has a strength and the ability to withstand internal detonations that are not far behind the previously used globe shape, at the same time as the chamber becomes significantly simpler and cheaper to manufacture. A further advantage that this basic shape provides is that the chamber volume in the downwardly facing tip of such a chamber becomes very concentrated and we have now been able to state that thanks to the very good heat transfer achieved in this part of the chamber via radiant heat and via direct transmission through the chamber wall. can give the destruction goods inside the chamber such a high temperature as is required for ignition of all types of explosives that may be considered. With this type of chamber, it has thus become possible for us to completely eliminate the sand layer and the chamber interior previously necessary for its maintenance. When the destruction process has started in full scale inside the chamber, the gradually formed scrap layer will take over the sand's task as a heat accumulator.

With a device in accordance with the present invention it has thus become possible to maintain a corresponding destruction capacity but in a smaller and cheaper device.

The device according to the invention has been defined in the following patent claims and it will now be described somewhat further together with the appended figures, which, however, only constitute an example of the invention.

Of these, Fig. 1 shows a sectional longitudinal projection with the inner destruction chamber in 506 filling-1 destruction position, Fig. 2 a sectional side projection of Fig. 1 along the line I-I and Fig. 3 the same projection as Fig. 2 but with the inner destruction chamber in the emptying position.

The references in the various figures thus correspond completely to each other.

The destruction device according to the invention thus comprises a heat-insulated outer chamber 1 suspended in a frame 2, which is only partially shown in the figures. The outer chamber 1 is rotatable about the horizontal axis 3 shown in the figures by means not shown in the figures. In the wall of the chamber a burner 4 is arranged for heating the interior of the chamber and the inner destruction chamber 6 suspended therein. there is also a gas outlet 5 for the combustion gases generated in the oil or gas burner 4. In the wall of the outer chamber 1 there is furthermore a combined inlet / outlet opening 7 for the chamber 6.

We will return to this later. An important point already now, however, is that the opening 7 with its respective side walls together with an attachment point 8 arranged on the opposite side of the chamber constitute the suspension points for the inner chamber 6 in the outer chamber 1.

The inner destruction chamber 6 is in the form of two uniform truncated conical end pieces 9 and 10, respectively, which are turned with their tapered parts apart and which have a cylindrical intermediate part 11 between them.

In practical terms, however, the chamber is constructed in two interconnected parts. The dividing line between them runs along line 12 along a central dividing plane through the cylindrical part. The connection between the parts has, as shown in the figures, been made by means of flanges arranged on the parts and a splice band 15 holding the flanges 13 and 14 together, respectively.

This basic shape gives the inner detonation chamber 6 great resistance to internal detonations, but at the same time it is relatively simple to manufacture and it or parts thereof are therefore easy to replace. The pressures become very large on a destruction chamber of the type referred to here, which is why one must be prepared to replace it after a long period of continuous operation.

As can be seen from the figure, there is also a separate gas outlet 16 for the explosive gases formed during the explosive combustion inside the chamber. 506 966 These are intended to be taken care of for a separately qualified purification, while the combustion gases disposed of through the gas outlet 5 can be subjected to simpler purification.

The previously mentioned inlet / outlet 7 consists of a first passage part 17 in which an openable and closable detonation locking hatch or lock hatch 18 is arranged. A second lock part 19 is releasably connected to this passage part. This latter part comprises a second openable and closable locking hatch 20 and a container 21 designed for destruction goods in a suitably adapted amount.

These latter details 19-21 are included in the supply system with which the destruction chamber 7 is supplied portionwise with ammunition and ammunition components in an amount adapted to the amount of explosive that the destruction chamber can withstand by a good margin. However, the feeding system does not form a direct part of the invention, so no other details are included in the figures. The basic principle is, however, that the lock part 19 with the filled container 21 and with closed door 20 is connected to the passage part 17, after which the doors 20 and 18, respectively, are opened and the destruction goods are supplied to the interior of the destruction chamber 6.

In the respective figures there is also a scrap bed 22 formed in the chamber 6. In the chamber 6 there is furthermore an edge wall 24 arranged on one side of its combined outlet / inlet opening 23. To this we return later in the text. The figures also show a scrap thigh 25 for collecting scrap emptied from the destruction chamber. The space 28 is a scrap thigh.

The general operating cycle of the device will now be as follows.

The ammunition components to be destroyed are now supplied to the destruction chamber 6 in portions from container 21 at a rate adapted to the goods and the capacity of the device. At the same time, the burner 4 works on the outside of the chamber 6. The explosive components contained in the ammunition components are burned, detonated or deflagrated and the metal parts in question successively form a broken scrap. As a result, a scrap layer is formed in the interior of the chamber 6 as everything 506 966 as it grows becomes an increasingly efficient heat accumulator for all the heat formed during the combustion of the explosives. The supply of external heat is therefore adjusted in step with the need to heat the chamber.

When the amount of scrap in the chamber has become so large that an emptying is necessary, the supply of new ammunition components is interrupted and the outer chamber 1 is rotated 180 ° so that the opening 23 of the inner chamber 6 is turned downwards and the scrap is emptied in the scrap thighs. 24 at the rotation, so to speak, is before the opening, a part of the scrap will remain in the chamber in the manner shown in figure 3. In this way, however, a scrap bed will start with. If the rotation is in the opposite direction, the chamber is completely emptied. In this context, it may also be justified to mention the protective plates 26 and 27, respectively, which ensure that scrap does not start falling out of the chamber at a premature stage and which also leads the scrap towards the scrap thighs 25.

Claims (6)

7,506,966 PATENT REQUIREMENTS Device for the destruction of ammunition and ammunition components and the conversion of this destruction goods into scrap metal prepared for reuse by a combustion, detonation or deflagration of explosives contained therein initiated by heating the destruction goods to a temperature corresponding to the temperature of the explosives. externally heated around a horizontal axis rotatable destruction chamber (6) provided with a single depending on the set position as inlet or outlet functioning opening (7) and which is dimensioned to withstand repeated detonations corresponding to the maximum explosive force of the goods to be destroyed k characterized in that the destruction chamber (6) is substantially in the form of a double pyramid or double cone (9, 10) with the axis of rotation (3) through the plane where the pyramids or cones meet and with its own opening (7) at the top of one ( 9) of these pyramids or cones and wherein k the chamber (6) also has a drain (16) for the explosive gases formed during the destruction of the explosives. 2. Device according to claim 1, characterized in that the destruction chamber (6) has the shape of two frustoconical end parts (9, 10) arranged with the bases facing each other with a cylindrical intermediate part (11) arranged between them and with one truncated conical part ended with said opening (7) and the other with a smaller flat outer end end. Device according to claim 1 or 2, characterized in that the destruction chamber (6) is suspended in a heat-insulated outer chamber (1) whose interior and thus also the exterior of the destruction chamber can be heated with dedicated burners (4) and wherein the outer chamber (1) is in turn rotatable about a horizontal shaft (3) so that the destruction chamber (6) can assume either a first filling / destruction position, with its own opening (7) facing upwards and itself having an inlet provided with a detonation lock (17, 18), or facing downwards towards an outlet (17, 18). 8,506,966 Device according to either of Claims 1 to 3, characterized in that the destruction core inside on one side of its own opening has a cut-off (24) which, in connection with emptying the chamber, will retain some scrap in the chamber provided that the chamber is rotated towards the emptying opening in the direction which means that the edge of the own opening (7) provided with the shield (24) reaches the emptying opening before other parts of the chamber opening. Devices according to claim 3 or 4, characterized in that the detonation lock (7, 17, 18) comprises two doors (18, 20) which can be opened and closed and which are so interconnected that only one door can be opened at a time. Device according to claim 4, characterized in that the detonation sluice is supplied with goods to be destroyed by a portion feeding device (19-21) whose inner volume (21) corresponds to the amount of destruction goods that the inner chamber is expected to withstand at the same time.