DE1446865B - - Google Patents

Description

The invention relates to a method and an operating system for the production of gelatin-dynamite explosives, automatic and continuous mixing and gelatinization and kneading the bases of the gelatinous explosives.

It is now urgently needed in the explosives industry in place of the traditional one discontinuous processes automatically and continuously operating processes to apply the have the advantage that, firstly, the amount of explosives stored in the workshop is kept lower can be so that in the event of an unexpected explosion human life is less endangered, that second, the danger z. B. nitroglycol poisoning during the manufacture of the explosive eliminated by remote control and that ultimately the yield is increased.

As is known, the manufacturing process of dynamite explosives currently generally comprises mean the following stages: nitration, mixing, gelatinization, kneading and filling in cartridge cases, which up to now could only be carried out intermittently. In the past few years Although methods and machines for the automatic and continuous nitration of glycerine and Developed for filling the dynamite in cartridge cases, whereby remote control is also used resulting in significant improvements in safety and yield. However, the entire manufacturing process could not be carried out automatically and continuously up to now as one is mixing, gelatinizing and kneading the basic ingredients of dynamite only could perform intermittently.

The invention now also enables mixing, gelatinizing and kneading in an automatic, continuous process and thus leads to increased efficiency and greater safety.

The development of an automatic, continuous process for the operations of the Mixing, gelatinizing and kneading pose the following problems: The continuous supply of the explosive oil (Nitroglycerins etc.), the moist collodion wool and the so-called "admixture powder", the continuous Mixing of the nitroglycerine and the damp collodion wool, the continuous gelatinization and the continuous supply of the mixture of nitroglycerin and moist collodion wool and the continuous kneading of all components of the explosive.

In these operations, the even supply of nitroglycerine can be done by means of a device take place in which the liquid level is kept constant; there are also suitable devices for the continuous supply of the admixture powder. But could for the other operations, such as the constant supply of moist collodion wool, continuous gelatinization, constant supply the mixture of nitroglycerin and damp collodion wool and continuous kneading of the entire components, because of technical difficulties and for reasons of safety risk, no continuous process was developed will.

The invention solves these problems in the manner described below. That automatically working, continuous process for making gelatin-dynamite explosives characterized in that

a) the moist, ground collodion wool fed to a rotating drum mechanically conveyor belt running through the drum is poured in such a way that by spatial limitation of the layer cross-section constantly constant amounts are conveyed out, which are subjected to loosening at the end of the conveyor belt;

b) then place the loosened collodion wool on a thin layer of the sloping, steadily evenly downward flowing explosive oil is continuously sprinkled and slurried in it;

c) the resulting slurry into the longitudinal channel previously attached by means of a guide plate of the admixing powder, which is steadily brought evenly on a conveyor belt will;

d) the slurry poured into the admixture powder during the continuous further transport is gelatinized;

e) the mixture of the gel and the admixture powder then cut and continuously under pressure in an elastic tube of a kneading device is filled and in this tube through steadily from the outside impact or rolling forces acting uniformly on the pipe continuously kneaded, sheared and is carried on.

For the sake of simplicity, the term “nitroglycerin” in the present description includes Explosive oils such as nitroglycerin and / or nitroglycol or other explosive oils that also contain additives be able. The collodion wools used according to the invention are ground, moist collodion wools (Dynamite wool) with about 15 to 17% water and a grain size that is clear Mesh size corresponds to 3.962 mm. The expression "admixture powder" used in the present description refers to all the usual additional components of dynamite, with the exception of explosive oil and collodion wool; known admixing powders are z. B. potassium, sodium and ammonium nitrate and Potassium perchlorate as well as wood flour, starch and certain nitro bodies.

The combined plant or apparatus for carrying out the method according to the invention consists:

A) a continuously operating device for the uniform supply of moist collodion wool, characterized by a rotating supply drum (20) with openings (23 and 23 ') on both side walls (22 and 22') and a series of guide plates (26) on the inner wall , a conveyor belt (5), which runs in the axial direction inside the drum (20), is provided on both sides with boundary plates (30 and 30 ') on which the collodion wool (F) falls and by means of which the latter comes out of the drum (20) and a scraper (35) attached to the outlet end (23) of the drum (20) and rotating close to the upper portions (32 and 32 ') of the side limit plates (30 and 30');

B) a continuously operating device for the continuous supply of all explosive components and for the gelatinization of the explosive oils, characterized by an inclined pipe (3) in which the explosive oil flows downwards, a loosening device (7) for the collodion wool (F ), a conveyor belt (11) for transporting the admixture powder (D), which runs horizontally below the lower end of the pipeline (3), and a guide plate (10) for drawing a longitudinal groove in the surface of the moving admixture powder (D) ;

C) a continuously working kneading device

! for kneading all of the explosives

components, characterized by an elastic tube (60), in which the explosive mass is pressed in, and a series of striking plates (57) attached outside the tube (60) or rollers, which move up and down in a constant cycle and which move the tube (60) so

L shape that the filled explosives mass.

'' kneads, shears and in the direction of the arrow (62)

is pushed forward.

25th

The entire plant as well as the individual devices and operations are described below explained with reference to the drawings, for example.

Fig. 1 shows a brief schematic work plan, which illustrates the method according to the invention and the overall apparatus;

Figs. 2, 3, 4 and 5 show an embodiment of the continuously and uniformly operating feed device for the damp collodion wool;

F i g. Figure 2 shows a front view of the feeder in vertical section,

F i g. 3 shows a side view of the feed device in cross section along the line AA and FIG

F i g. Figure 4 is a front view, partly in cross section, of the guide device and the rotating one Disc for evenly transferring the moist collodion wool;

; Fig. 5 finally shows a side view, partially in cross section, the same device;

Figs. 6 and 7 relate to a continuously operating one Device for mixing the nitroglycerine; with the damp collodion wool and to the feeder ; this mixture to the following process stage;

F i g. 6 shows an embodiment of the mixing device and the subsequent one in vertical section Device parts,

F i g. 7 is a side plan view of the same device;

8, 9, 10a and 10b illustrate the device for continuous gelatinization and further conveyance of the mixture of nitroglycerin and moist collodion wool;
• F i g. 8 shows a side view and

F i g. 9 a plan view of the relevant conveyor belt system, those in Fig. 10a and 10b in cross section can be seen where

10a that formed by the admixture powder Channel into which the mixture of nitroglycerin and moist collodion wool is introduced and into the it is gelatinized, and

Figure 10b illustrates a cross-section of the same trough with the mixture therein; Figs. 11, 12 and 13 relate to devices for continuous kneading and conveyance of all explosive components;

Fig. 11 shows a vertical cross-section of the front view of a suitable kneading and conveying device,

F i g. 12 is a vertical longitudinal section of the moving device and _r chen

13 shows another embodiment of a similar device.

In the method according to the invention, all operations and individual devices are approximately in the in Fig. 1 shown schematically manner with each other combined.

Nitroglycerin N flows in a thin layer from the continuously operating charging device 1 for the nitroglycerin downwards in the direction of the arrow 2 into the inclined pipe 3, in which it spreads evenly and is mixed with the moist collodion wool F. The dense, moist collodion wool F is continuously conveyed from the rotating and continuously conveying feed drum 4 in a constant amount in the direction of the arrow 6, by means of the rotating needle roller arranged at the end of the conveyor belt 5? loosened and fed to line 3 in the direction of arrow 8. The nitroglycerin-collodion wool mixture flows from the latter onto the common conveyor belt 11.

The admixing powder D is fed from the continuously operating feed device 9 to the conveyor belt 11 from another direction, whereby it is provided with a longitudinal channel by means of a guide plate 10 after it falls onto the conveyor belt. The mixture of nitroglycerin and collodion wool flows into this channel from line 3 and is mixed there with the admixture powder; the mixture of nitroglycerin gel and admixture powder is fed in the direction of arrow 12 to the end of the conveyor belt in an always constant composition and amount. Here the mass is cut into small pieces by means of the rotating knife 13 and fed in a constant amount to the filling funnel 15 of the continuously operating kneading system and from the funnel by means of the screw or piston feed device 16 to the kneading device 14, in which the explosive components are continuously kneaded and then in Direction of arrow 17 are ejected.

The following are the individual process stages of the process according to the invention with their individual devices described in more detail.

a) The rotating feed drum serves, as mentioned above, the continuous feed of a certain, constant amount of collodion wool. Admittedly they became an ongoing task various arrangements have been developed from ordinary powdery substances, but all of these are Arrangements in spite of good performance for the powdery moist collodion wool not very suitable, as these is not very flowing, forms light lumps and its apparent specific gravity is low external force is easily changeable. as it is easily matted.

Rotating rollers 19 and 19 'are attached to a pair of conveyor shafts 18 and 18' arranged in parallel, which the drum 20 by means of attached thereto annular rails 21 and 21 ', which the rollers include, offset in the direction of rotation, se

5 6

that the drum could be fed in evenly and without jolting in an even amount,

tion rotates in the axial direction of the conveyor shafts. be measured evenly. The device is

Both side walls 22 and 22 'of the drum 20 are very tight and therefore easy to use,

sen openings 23 and 23 '. The conveyor belt 5, explaining the following operational dimensions, runs axially through the central portion of FIG. 5:
Drum 20, is outside the two sides of the

Drum 20 is provided with rollers 24 and 24 'and the diameter of the rotating drum ... 100 cm

through the drive roller 25 in the horizontal direction dimensions of the quantity measuring device

driven. Width 3 cm

On the inner wall of the central part of the trombio, height 1.5 cm

mel 20 in the in Fig. 3 direction of rotation of the _ ..,,,,.,.,. -. . _{Λ n} ,

Drum 20 are a number of guide plates 26 Inge conveyor belt speed 5 to 10 cm / sec

brings. The drum 20 rotates in such a way that the rotating speed of the drum 10 μ / min

the collodion wool in it by means of the dimensions of the guide plates

Guide plates 26 along the inner wall of the drum 20, 15 length 18 cm

without any form or apparent specific ge Height 2 cm

Change the weight of the collodion wool, lifted upwards, through the upper number of guide plates 25 in the middle part of the drum 20

half of the conveyor belt 5 attached hopper inclination angle of the guide plates to

27 passed into the quantity measuring device 28 and 20 inner wall of the rotary drum ... 60 °
there over the side boundary plates 30 and 30 '

is piled up protruding. b) In the following, the procedural stage of the con-

Like F i g. 4 shows, these boundary plates are continuous mixing of collodion wool with Ni

30 and 30 ', which constrict in the upper part, and nu- troglycerin and the further conveyance of these mites form, explained in more detail by means of the fastening bolt 31 to 25 schung.

the sides of the beam 29, which is in the axial direction using the known continuous method Drum 20 and within the conveyor belt 5 ren for mixing a liquid with a solid runs attached. Between the carrier 29 and the material for the mixture of nitroglycerine with collodion upper part of the boundary plates 30 and 30 ', wool is used, so step through after a few seconds the gap 33 of the upper part of the conveyor belt opens up the phenomena of gelatinization, and one obtains conducts, while the lower part of the conveyor belt below a viscous, solid mass with increased stickiness, of the carrier 29 is passed. making the nitroglycerin extremely sensitive to

In which from the upper parts 32 and 32 'the load on friction or impact becomes and because of too great

Boundary plates 30 and 30 'not formed intermediate dangerousness and insufficient economic viability

space, on the bottom of which the conveyor belt 5 runs, 35 are continuously mixed with collodion wool

the collo- can falling from the funnel 27, whereas the invention overcomes these disadvantages

Medium wool F continuously lifts onto the conveyor belt 5.

poured and from there to the opening 23 of the drum As can be seen from Fig. 6 and 7, the moist guided by the before inside the drum collodion wool from the feed drum 20 through the With the distributor disk 35 arranged in this way, the needle roller 7 rotating over 40 in the direction of the arrow 40 the height of the delimitation plates 30 and 30 'is loosened and then falls in evenly upright positions Quantities to be stripped off. loosened state in the direction of arrow 8.

4 and 5 show the axis of rotation 38, which is somewhat narrow by means of the width of the shaft through which the collodion wool that is knocked open in the vertical hub 37 falls down and by means of the roller 39 and 45 ler than the width of the transmission belts 36 flowing into the pipeline 3 through the drive roller and the nitroglycerin layer and is driven by the line 25 (see FIG. 2) and thus regulates the distribution. The collodion wool that rotates on the thin disk 35. Layer of nitroglycerin hits and with this to-

The size and number of the guide plates 26 in which the tubing flows down the line 3 increases in this case

mel 20 and its angle of inclination to the inside of the drum 50 the nitroglycerin. In an area of just a few

wall, the desired amount of KoIgen centimeters and in just a few seconds can be

Iodium wool can be changed accordingly. Furthermore, both substances are combined in a way

the width of the quantity measuring device can also mix so that the mixture does not yet gelatinize

28 according to the desired amount of the charge begins and the nitroglycerin gel thus cannot be changed at the good. By changing the mixing device 55 sticks. This mixture falls at the speed of the conveyor belt 5, the feed quantity of collodion wool formed by the admixing powder D on the conveyor belt 11 can be largely wasted (cf. FIG. 6, in which the nitroglycerin gel is changed, denoted by G).

Incidentally, the collodion wool becomes matted. Of course, angles of inclination and compensation can hardly be fluid, so that the line 3 measured by 60 in a suitable manner Use a brush or a fixed spreader to apply the desired amount of nitroglycerin to the surface the collodion wool are no longer changed in the same way. As a loosening device can be removed moderately. The needle roller 7 serving the distributor disk 35 consists, as shown in FIG but can do this uniformly. seen from a wire with unevenly distributed!

The filling of the collodion wool into the drum 65 needles 42 of about 3 mm in diameter and 20 mm

20 can be done at intervals. By the roller provided with the length of the invention.

According to the feed device, the amount of collo- The above-described process stage of the

Medium wool, which by conventional methods, method not according to the invention has the following advantages:

1. Mixing nitroglycerin with collodion wool is not done mechanically and is therefore fairly safe.

2. Mixing can be done very evenly, provided that the addition of nitroglycerin and collodion wool in fixed, coordinated quantities will.

3. The mixing takes place in an extremely short time, so that there is no premature gelatinization in the mixing device can take place and the gel does not - as is conventionally expected - on the mixing device sticks.

4. Mixing is very easy to do.

! c) and d) The following is the process step: gelatinizing the mixture of nitroglycerin and collodion wool as well as the supply of the Nitrogly-I ceringels and the other explosive components in ': described in more detail uniform amounts in the continuously operating kneading device. aim : this stage of the process is the continuous gelati-; nation of the non-gelatinized mixture of nitro : glycerin and collodion wool during transport; in a gutter from the extra explosives components is formed.

As shown in FIGS. 8 and 9, the "admixing powder" D , which consists of sodium nitrate, ammonium nitrate, starch and the like and which comes in predetermined quantities from the continuously operating quantity measuring and stirring device 9, is placed on a conveyor belt 11 in Direction of arrow 12 promoted. At the same time, the guide plate 10 draws a channel 43 in the admixture powder D (cf. FIGS. 10a and 10b) in which the mixture G of nitroglycerin and collodion wool is gelatinized. This mixture is directed from the direction of the arrow 44 into the channel 43, gelatinizes during the further conveyance together with the admixture powder in a form shown by the reference numeral 45 in Fig. 9 and G in Fig. 10b and is carried by the conveyor belt 11 in (direction the arrow 12 of the following treatment stage fed.

At this stage of the process, the proportion of Nii troglycerin in the explosive can be easily and continuously I by changing the amount of admixture powder or the mixture of nitroglycerin and [moist collodion wadding or the speed [of the conveyor belt 11 can be varied. Thus can ! Nitroglycerin and admixture powder always in constant! Quantities and in a constant proportion If one considers the quantities or the speed of the [Keeps the conveyor belt constant. In the conventional! Process for the continuous gelatinization of nitroglycerin and nitrocellulose prepares the iNitroglycerin gel to stick to the walls of the gelatinizer often difficulties, which, however, do not occur in the method according to the invention, since the in the admixture powder on the conveyor belt 11 formed as a gelatinizing vessel for the nitroglycerin and the collodion wool is used and the admixture powder is conveyed together with the nitroglycerin gel. In addition, the degree of gelatinization of the nitroglycerin gel can be easily adjusted by changing the speed of the conveyor belt can be changed.

Tests have shown that the nitroglycerin does not penetrate the admixture powder and that is why that Nitroglycerin also does not stick to the conveyor belt 11 in the method according to the invention.

This stage of the process according to the invention also has the advantage that no mechanically performed operations are required, so that the process with extreme Security can be done.

e) Subsequent to the process steps described above the two superimposed layers of the admixture powder and the nitroglycerin gel, as already described, cut, in the funnel 15 gradually in a constant amount added to the continuously operating kneading device 14 by means of the piston feed device 16, the moves back and forth at regular intervals, with their movement on that of the sleep plates 57 is coordinated.

The kneading process is characterized in that the components of the explosive in an elastic Tube 60, which is made of a non-metallic material, such as rubber, plastic, textile fabric or leather, exists, are given, then mixed with one another and continuously conveyed. The cross section of the kneading tube 60 can be circular, elliptical or rectangular, its length can be accordingly the type of explosive can be selected and is generally in a range of 1 to several Meters. A plurality of striking plates 57 moving in uniform alternating movements are attached outside the pipe, by means of which the explosive components are mixed, kneaded, cut, pressed and transported inside the tube.

The kneading and conveying device can, for example, consist of several groups of several There are impact plates that carry out alternating movements at regular intervals (see. Fig. 11 / 12). These operations can also be carried out as follows: Several rollers are, like shown in Fig. 13, in the vertical direction (arrow 61) pressed downwards, thereby have a shearing effect on the in the pipe 60 contained mass and push it forward in the pipe. Various operations, e.g. B. that Distributing and kneading the explosive components in the pipe 60 are due to the conveying movement in the direction of arrow 62 executed. The rollers 61 then reverse in the direction indicated by arrow 63 return to their original height and reach their starting position by moving towards of arrow 64.

The performance of the kneading devices described in terms of kneading, cutting, pressing and conveying the explosive component depends on the shape and diameter of the tube 60; the Depending on the required qualitative and quantitative capacity, the pipe diameter should preferably be in range from 2 to 7 cm when a tube of circular cross-section is used. the The type of kneading and conveying equipment outside of the tube 60 also depends on the type of ingredients of the explosives and their mixing ratio, so that there are 5 to 20 groups of impact plates or rollers can be attached at intervals of 3 to 20 cm.

Fig. 11 explains the operation of a single striking plate, which is on the upper part of the elastic Rohres 60 hits. The lever 49 moves in the vertical direction and has the fixed

009 524/59

Claims (2)

9 10 lowing axis 50, the lever 49 being turned 2. The kneading process is fully automatic and the transmission axis 46 and the one attached to it is continuous, as a result of which, compared to the her-cam 47, is set in motion. One end of the conventional, intermittent adjustment 48 of the lever 49 is constantly connected to the cam 47 by driving a small amount of tension spring 51 in the kneading chamber. The vertical 5 explosives is present; The method is shaft 55 is connected to the lever 49 through the pin 54. Therefore, in comparison to conventional methods, the connecting rod 53 and the pin 52 at the other ren are much safer, and it can be connected to the same end of the lever 49. The support beam 55 α early a previously impossible remote control is attached to the vertical shaft 55 and carried out in such a way that the device is built that the impact plate 57 by the compression spring io 3. The power of the kneading device can easily 56 is pulled down and periodically on the and varied in a wide range, inelastic rubber tube 60 that hits the support 59 on which the number of revolutions of the cam 47 is attached, the vertical or the diameter of the tube 60 changing. Impact movements of the impact plate 57 along the guide device 58 attached to the 4th. The performance of the machine frame used according to the invention corresponds to that of the conventional kneading device. The explosive mass treated in this way is kneaded in a suitable manner by means of intermittent kneading in the pipe 60 and is machine-like. advanced in the direction of arrow 62. Preferably, three impact plates form a group, but in summary it should be emphasized that two or more than three plates can also form a group according to the method and operating system. compared to the conventional discontinuous configuration. 12 shows e.g. B. an embodiment that has the following advantages from driving: three groups A, B and C, each with three striking plates 57 consists. The impact plate A1 of group A 1. The new method works continuously, impacts on the pipe 60, and then it lowers itself automatically by means of a remote control. A1 all the way down before Ax begins to rise again. 2. Every single work step is carried out by a similar device, A3 descends completely, before At is again carried out tightly built device, so that it begins to lift. The movements of the beating plates, the mixing, gelatinizing and kneading processes in B1, B., and B, group B and the beating plates C1, can take place in a single workroom. C and C3 of group C are in a 30 3. The manufacture of dynamite explosives can be similar. The explosive mass slides in a short time and with improved performance tube 60 at a corresponding speed further ability, and is thereby continuously kneaded, sheared, pressed and finally ejected in the direction of arrow 62 from the tube. 35 Claims: In the following operational embodiment, the specified dimensions can of course 1- Automatically working continuous and the working speed of the individual pre-Process for the production of gelatin-dynamite, directional parts at will according to the explosives, characterized, desired type, composition and Amount of 40 explosives to be produced can be changed. a) the moist, ground collodion wool fed to a rotating drum mechanically in the manner of a rubber tube with a circular conveyor belt running through the drum is poured out in such a way that by spatial internal diameter of 45 mm the layer cross-section is constantly 70 mm and an external constant amount is conveyed out be diameter of 80 mm, which at the end of the conveyor belt cinei the length of the pipe r. Be subjected in loosening; Striking plates 20 mm thick. 200 mm wide: b) The loosened collodion wool then - three groups of 5 ° each end on a thin layer of the inclined, three iron slats in parts equally downwardly flowing explosive ...... oil and continuously sprinkled in it counting number, ",,. . is slurried; the cam 60 rpm c) the slurry harvested in the previously kneading time of 20 seconds 55 longitudinal kneading capacity 600 kg / h installed by means of a guide plate. The following features and advantages: d) The slurry poured into the admixture powder during the continuous further transport 1. That part of the kneading device that is gelatinized with the ex- eration; plosive substances is in direct contact, is from e) the mixture of the gel and the admixing powder non-metallic material such as rubber. verse then cut and running under Textile fabric. Plastic or leather, so that pressure is applied to an elastic tube of a kneading device Mixing in foreign materials, filled through 65 direction and in this through steady Friction of mixing blades and the like in the mixing vessel from the outside onto the pipe evenly and any dangers caused by external influences are continuously eliminated. kneads, shears and is conveyed. " 2. Kombiniertc plant for performing the method according to claim 1, consisting out A) a continuously operating device for the uniform supply of moist collodion wool, characterized by a rotating supply drum (20) with openings (23 and 23 ') on both side walls (22 and 22') and a series of guide plates (26) on the inner wall , a conveyor belt (5), which runs in the axial direction inside the drum (20), is provided on both sides with boundary plates (30 and 30 ') on which the collodion wool (F) falls and by means of which the latter comes out of the drum (20) and a scraper (35) attached to the outlet end (23) of the drum (20) and rotating just above the upper portions (32 and 32 ') of the side limit plates (30 and 30'); B) a continuously operating device for the continuous supply of all explosive components and to gelatinize the explosive oils, characterized by an inclined pipe (3) in which the explosive oil flows downwards, a loosening device (7) for the collodion wool (F) mounted above the pipe (3), a conveyor belt (11) for transporting the admixture powder (D), which runs in the horizontal direction below the lower end of the pipeline (3), and a guide plate (10) for drawing a longitudinal groove in the surface of the moving admixture powder (D);
a continuously operating kneading device for kneading the entire explosive components, characterized by an elastic tube (60) into which the explosive mass is pressed, and a series of beater plates (57) or rollers attached outside the tube (60), which move in a constant cycle and move down and deform the tube (60) so that the filled explosive mass is kneaded, sheared and pushed forward in the direction of the arrow (62). 1 sheet of drawings